CN106422929B - Pneumatic catalytic stirring device - Google Patents

Abstract

The utility model provides a pneumatic catalysis agitating unit, including the agitator, be equipped with row material pipe on the agitator, be equipped with the (mixing) shaft in the agitator, the below of (mixing) shaft is equipped with stirring vane, the top and the power device interlock of (mixing) shaft, be equipped with a (mixing) shaft in the agitator, power device is double gear formula motor case, be equipped with two intermeshing's pnematic gear in the double gear formula motor case, pnematic gear suit is on the (mixing) shaft top, be equipped with the air inlet on the double gear formula motor case, the gas outlet is connected with exhaust duct, exhaust duct's front end links to each other with the pneumatic pipeline in the agitator after passing the removable cover at agitator top, the last venthole that is equipped with the interval uniformity of pneumatic pipeline, be equipped.

Description

Pneumatic catalytic stirring device

Technical Field

The invention relates to the technical field of stirring devices, in particular to a pneumatic catalytic stirring device.

Background

At present, in the production of mines and chemical enterprises, some ore dressing medicaments or chemical liquids are required to be mixed and stirred to be uniform, so that the ore dressing medicaments or the chemical liquids are suitable and convenient for field use, and because some mine enterprises are short in power resources or inconvenient in power resource utilization, only an electric stirring device can be used. The traditional electric stirring device is large in size, cannot stir mixed gas, is single in stirring mode, has strict requirements on electric power, is easy to generate electric leakage and the like when being used in a supermarket environment for a long time, and is greatly limited in practical use.

Disclosure of Invention

The invention aims to solve the technical problem of providing a double-shaft stirring device to solve the problems that gas cannot be added, the stirring mode is single, the requirement on electric power is strict, and electricity is leaked in the prior art.

The technical scheme for solving the technical problem of the invention is as follows: the utility model provides a pneumatic catalysis agitating unit, includes agitator 2, is equipped with on agitator 2 and arranges the material pipe, is equipped with (mixing) shaft 4 in the agitator 2, and the below of (mixing) shaft 4 is equipped with stirring vane 5, and the top of (mixing) shaft 4 links with power device mutually, its characterized in that: 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear type motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear type motor box 6, the pneumatic gears are sleeved at the top ends of the stirring shafts 4, an air inlet 7 and an air outlet 8 are arranged on the double-gear type motor box 6, the air outlet 8 is connected with an exhaust pipeline 10, the front end of the exhaust pipeline 10 penetrates through a movable cover plate 11 at the top of the stirring barrel 2 and then is connected with a pneumatic pipeline 13 in the stirring barrel 2, air outlet holes 14 with uniform intervals are formed in the pneumatic pipeline 13, a rotating speed detector 36 is arranged on the stirring shaft 4, and the output end of the rotating speed detector 36 is connected with; the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module; the air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module.

The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence.

The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module.

A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module.

The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module.

The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module.

The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device.

The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11.

The outer sleeve 15 is in threaded connection with the inner sleeve 16.

A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24.

The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod.

The inner sleeve 16 is provided with longitudinal scale lines.

The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module.

The movable cover plate 11 is provided with a stirring shaft through hole 25, the stirring shaft 4 passes through the stirring shaft through hole 25, an elastic airtight ring 26 is arranged in the stirring shaft through hole 25, the outer wall of the elastic airtight ring 26 is tightly attached to the inner wall of the stirring shaft through hole 25, and the inner wall of the elastic airtight ring 26 is tightly attached to the stirring shaft 4.

Elastomeric air seal ring 26 is a solid structure.

Elastomeric air-tight ring 26 is a hollow structure.

The elastomeric airtight ring 26 of the hollow structure is free of filler.

The elastic airtight ring 26 of the hollow structure is filled with rubber balls 27.

The elastic airtight ring 26 of the hollow structure is filled with jelly-like colloid 28.

The elastic airtight ring 26 with a hollow structure is internally provided with a uniformly distributed rubber ring 29.

The movable cover plate 11 is provided with a material filling pipe 21, and an opening of the material filling pipe 21 is provided with an opening device.

The movable cover plate 11 is provided with a sight glass 22.

Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30.

A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module.

Be equipped with locking block 33 on the support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting screw hole that corresponds with locking screw hole position on the agitator 2, the threaded hole that is equipped with fixing bolt 34 of locking, the connecting screw hole that is equipped with on the locking block 33 screw in agitator 2 is passed to fixing bolt 34's front end.

The discharge pipe is provided with a discharge valve 3.

The discharge valve 3 is an electric control valve, and the control end of the discharge valve 3 is connected with the main control module.

The present invention has the following advantages.

Two (mixing) shafts 4 that are equipped with in the agitator 2 pass through the drive of double gear motor case 6, because be equipped with two intermeshing's pneumatic gear in the double gear motor case 6, so two (mixing) shafts 4's rotation opposite direction to can form two strands of vortexes, two strands of vortexes enable the material intensive mixing.

The rotation speed detector 36 can monitor the rotation speed of the stirring shaft 4 so as to monitor the stirring intensity, and the monitoring value of the rotation speed detector 36 can be used for guiding the production to avoid accidents.

The double-gear motor box 6 utilizes high-pressure air as power, air enters from the air inlet 7 of the double-gear motor box 6 and is discharged from the air outlet 8, the discharged air enters the pneumatic pipeline 13 through the connecting pipe and the exhaust pipeline 10 and is discharged from the air hole 14 on the pneumatic pipeline 13, the discharged air enters the stirring barrel 2, pneumatic stirring is added on the basis of original rotary stirring, and therefore stirring efficiency is improved.

The air flow of the two pneumatic pipelines 13 enters and is controlled by the three electric control valves 12, the two pneumatic pipelines 13 can simultaneously intake air, can also respectively intake air and can also intake air at intervals by utilizing the three electric control valves 12, and regular rotational flow can be generated by the alternate intake of air due to different arrangement modes of the two pneumatic pipelines 13, and the stirring efficiency is further improved by matching with stable rotary stirring.

Because the aperture 14 on one of two pneumatic pipeline 13 increases in proper order from the past to back aperture, and the aperture 14 on the other diminishes in proper order from the past to back aperture, can use according to the condition selectivity of material when using, mainly use the pneumatic pipeline 13 that the aperture diminishes in proper order from the past to back aperture of air vent 14 when floating material is too much in the material, mainly use another pneumatic pipeline 13 when deposiing material is too much in the material. By installing the threaded plugs on the air outlet holes 14, the distribution intervals of the air holes 14 can be artificially increased, so that air can be pertinently released in a certain area in the stirring barrel 2.

The gas adding valves 19 arranged on the gas inlet connecting pipe 9 and the exhaust pipeline 10 can add special gas into the stirred materials for catalytic stirring or participating in stirring according to requirements, and when the added gas is stable, the gas can be added on the gas adding valve 19 of the gas inlet connecting pipe 9 or the gas adding valve 19 of the exhaust pipeline 10. When the added gas is corrosive and oxidative, the gas can be added only on the gas adding valve 19 of the exhaust pipeline 10.

The gas composition detector 20 may monitor the gas condition in real time to control the amount of gas added.

The gas flow controller 23, in cooperation with the air conveyor 18, can flexibly control the output speed of the double-gear motor box 6, and the stirring intensity can be conveniently controlled.

The outer sleeve 15, the inner sleeve 16, the bearing 24, the rotation controller 17 and the adjusting motor 35 can adjust the relative height of the double-gear motor box 6 according to requirements, thereby controlling the relative height of the stirring blades 5, and therefore, the relative height can be adjusted according to the characteristics of different materials or the quantity of the materials. To prevent the difference in height during adjustment, an inner sleeve 16 with longitudinal scale lines is introduced. When the device is used, only the adjusting motor 35 needs to be controlled, the adjusting motor 35 drives the rotation controller 17, and the rotation controller 17 can drive the outer sleeve 15 to rotate, so that the purpose of adjustment is achieved.

The through hole 25 and the elastic airtight ring 26 can play a sealing effect to prevent the gas in the stirring barrel 2 from leaking. When the stirring materials are finely crushed and the stirring shaft 4 does not shake in the stirring process, the dynamic elastic airtight ring 26 adopts a solid structure. When large particles in the stirred material are more, the stirring shaft 4 is greatly stirred in the stirring process, and the stirring shaft shakes normally, the dynamic elastic airtight ring 26 adopts a hollow structure, and the hollow part is not filled with filler.

According to the amplitude and the characteristics of the shaking, the hollow part of the dynamic elastic airtight ring 26 with the hollow structure can be filled with rubber balls 27, jelly-shaped colloid 28 or uniformly distributed rubber rings 29, so that the sealing effect is improved. The material filling pipe 21 arranged on the movable cover plate 11 can conveniently add materials, and the observation mirror 22 can conveniently observe the stirring condition.

The half shaft 30, the connecting shaft 37 and the hydraulic push-pull rod 32 are mutually matched, so that the stirring barrel 2 can swing left and right. After the materials are stirred well, slight precipitation can be formed when the materials are used for several times, and in order to prevent precipitation, the hydraulic push-pull rod 32 is utilized to shake the stirring barrel 2 when the materials are not used, so that the precipitation can be prevented.

The locking block 33 arranged on the bracket 1 is matched with the fixing bolt 34, so that the stirring barrel 2 can be kept stable during stirring. When the stirring device is used, the fixing bolt 34 is screwed into the locking block 33 and enters the hole formed in the stirring barrel 2.

For convenience of use, the invention introduces a main control module which is used for controlling the discharge valve 3, the electric control three-way valve 12, the air conveyor 18, the gas adding valve 19, the gas composition detector 20, the gas flow controller 23, the hydraulic push-pull rod 32 and the adjusting motor 35.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a top view of a dual gear motor case of the present invention.

Fig. 3 is a schematic view of the structure of the removable cover plate of the present invention.

Figure 4 is a schematic view of the gas-tight ring structure of the present invention 1.

Figure 5 is a schematic 2 view of the gas-tight ring structure of the present invention.

Figure 6 is a schematic 3 view of the gas-tight ring structure of the present invention.

Figure 7 is a schematic 4 view of the gas-tight ring structure of the present invention.

Fig. 8 is a side view of the present invention.

FIG. 9 is a block diagram of the circuit of the present invention.

Detailed Description

The present invention is further illustrated by the following examples.

Example 1.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module.

Example 2.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module.

Example 3.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence.

Example 4.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 5.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module.

Example 6.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module.

Example 7.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module.

Example 8.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The movable cover plate 11 is provided with a stirring shaft through hole 25, the stirring shaft 4 passes through the stirring shaft through hole 25, an elastic airtight ring 26 is arranged in the stirring shaft through hole 25, the outer wall of the elastic airtight ring 26 is tightly attached to the inner wall of the stirring shaft through hole 25, and the inner wall of the elastic airtight ring 26 is tightly attached to the stirring shaft 4. Elastomeric air seal ring 26 is either a solid structure or a hollow structure. When the elastic airtight ring 26 is of a hollow structure, the inner part of the elastic airtight ring has no filler or has a filler, and the filler is a rubber ball 27, a jelly-like colloid 28 or a uniformly distributed rubber ring 29.

Example 9.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The movable cover plate 11 is provided with a material filling pipe 21, and an opening of the material filling pipe 21 is provided with an opening device. The movable cover plate 11 is provided with a sight glass 22.

Example 10.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting thread hole that corresponds with locking screw hole position on agitator 2, the threaded hole of locking is equipped with fixing bolt.

Example 11.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The discharge pipe is provided with a discharge valve 3. The discharge valve 3 is an electric control valve, and the control end of the discharge valve 3 is connected with the main control module.

Example 12.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module.

Example 13.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module.

The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module.

Example 14.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module.

The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting thread hole that corresponds with locking screw hole position on agitator 2, the threaded hole of locking is equipped with fixing bolt.

Example 15.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting thread hole that corresponds with locking screw hole position on agitator 2, the threaded hole of locking is equipped with fixing bolt. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence.

Example 16.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting screw hole that corresponds with locking screw hole position on the agitator 2, the downthehole venthole 14 that is equipped with two pneumatic pipeline 13 of fixing bolt in the locking screw increases in proper order from the past to back aperture, and venthole 14 on the other diminishes in proper order from the past to back aperture. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 17.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 18.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 19.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 20.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 21.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting thread hole that corresponds with locking screw hole position on agitator 2, the threaded hole of locking is equipped with fixing bolt. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug.

Example 22.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting screw hole that corresponds with locking screw hole position on the agitator 2, the downthehole venthole 14 that is equipped with two pneumatic pipeline 13 of fixing bolt in the locking screw increases in proper order from the past to back aperture, and venthole 14 on the other diminishes in proper order from the past to back aperture. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug. The movable cover plate 11 is provided with a stirring shaft through hole 25, the stirring shaft 4 passes through the stirring shaft through hole 25, an elastic airtight ring 26 is arranged in the stirring shaft through hole 25, the outer wall of the elastic airtight ring 26 is tightly attached to the inner wall of the stirring shaft through hole 25, and the inner wall of the elastic airtight ring 26 is tightly attached to the stirring shaft 4. Elastomeric air seal ring 26 is either a solid structure or a hollow structure. When the elastic airtight ring 26 is of a hollow structure, the inner part of the elastic airtight ring has no filler or has a filler, and the filler is a rubber ball 27, a jelly-like colloid 28 or a uniformly distributed rubber ring 29.

Example 23.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting thread hole that corresponds with locking screw hole position on agitator 2, the threaded hole of locking is equipped with fixing bolt. The diameter of the air outlet 14 on one of the two pneumatic pipelines 13 is increased from the front to the back in sequence, and the diameter of the air outlet 14 on the other pneumatic pipeline is decreased from the front to the back in sequence. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug. The movable cover plate 11 is provided with a material filling pipe 21, and an opening of the material filling pipe 21 is provided with an opening device. The movable cover plate 11 is provided with a sight glass 22.

Example 24.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting screw hole that corresponds with locking screw hole position on the agitator 2, the downthehole venthole 14 that is equipped with two pneumatic pipeline 13 of fixing bolt in the locking screw increases in proper order from the past to back aperture, and venthole 14 on the other diminishes in proper order from the past to back aperture. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug. The discharge pipe is provided with a discharge valve 3. The discharge valve 3 is an electric control valve, and the control end of the discharge valve 3 is connected with the main control module.

Example 25.

A pneumatic catalytic stirring device comprises a stirring barrel 2, a discharge pipe is arranged on the stirring barrel 2, a stirring shaft 4 is arranged in the stirring barrel 2, stirring blades 5 are arranged below the stirring shaft 4, the upper part of the stirring shaft 4 is linked with a power device, 2 stirring shafts 4 are arranged in the stirring barrel 2, the power device is a double-gear motor box 6, two mutually meshed pneumatic gears are arranged in the double-gear motor box 6, the pneumatic gears are sleeved at the top end of the stirring shaft 4, an air inlet 7 is arranged on the double-gear motor box 6, the gas outlet 8, the gas outlet 8 is connected with the exhaust duct 10, the front end of the exhaust duct 10 passes through the removable cover 11 at the top of the mixing drum 2 and then is connected with the pneumatic duct 13 in the mixing drum 2, the pneumatic duct 13 is provided with gas outlets 14 with uniform intervals, the mixing shaft 4 is provided with a rotation speed detector 36, and the output end of the rotation speed detector 36 is connected with the main control module. Two pneumatic pipelines 13 are provided, the front ends of the two pneumatic pipelines 13 are connected with two outlets of the electric control three-way valve 12, the inlets of the electric control three-way valve 12 are connected with the front end of the exhaust pipeline 10, and the control ends of the electric control three-way valve 12 are connected with the main control module. The air inlet 7 is connected with an air conveyor 18 through an air inlet connecting pipe 9, a gas adding valve 19 is arranged at the rear part of the air inlet connecting pipe 9, the gas adding valve 19 is an electric control valve, the control end of the gas adding valve 19 is connected with a main control module, and the control end of the air conveyor 18 is connected with the main control module. The front part of the air inlet connecting pipe 9 is provided with a gas flow controller 23, the gas flow controller 23 is an electric control valve, and the alarm output end of the gas flow controller 23 is connected with the main control module. A gas composition detector 20 is arranged between the gas adding valve 19 and the gas flow controller 23, and the alarm output end and the signal output end of the gas composition detector 20 are connected with the main control module. The rear part of the exhaust pipeline 10 is provided with a gas adding valve 19, the gas adding valve 19 is an electric control valve, and the control end of the gas adding valve 19 is connected with the main control module. The gas component detector 20 is arranged on the exhaust pipeline 10, the gas component detector 20 is positioned in front of the gas adding valve 19, and the alarm output end and the signal output end of the gas component detector 20 are connected with the main control module. The double-gear motor case 6 is mounted on the movable cover plate 11 through a support device. The supporting device comprises an outer sleeve 15 and an inner sleeve 16, the outer sleeve 15 and the inner sleeve 16 are sleeved with each other, the upper end of the outer sleeve 15 is connected with the bottom surface of the double-gear motor box 6, and the lower end of the inner sleeve 16 is connected with the top surface of the movable cover plate 11. The outer sleeve 15 is in threaded connection with the inner sleeve 16. A bearing 24 is arranged between the top end of the outer sleeve 15 and the double-gear motor box 6, the bearing 24 is fixed at the bottom of the double-gear motor box 6, and the top end of the outer sleeve 15 is sleeved in the bearing 24. The outer sleeve 15 is provided with a rotation controller 17, the rotation controller 17 is a thread driving rod, and the outer wall of the outer sleeve 15 is provided with threads matched with the thread driving rod. The inner sleeve 16 is provided with longitudinal scale lines. The tail end of the rotation controller 17 is connected with a transmission shaft of the adjusting motor 35, and the control end of the adjusting motor 35 is connected with the main control module. Be equipped with symmetrical semi-axis 30 on agitator 2, agitator 2 installs on support 1, is equipped with arc support limit 30 on support 1, and semi-axis 30 suit is in the middle of arc support limit 30. A connecting shaft 37 is arranged on the stirring barrel 2, the connecting shaft 37 is connected with the front end of the hydraulic push-pull rod 32, the rear end of the hydraulic push-pull rod 32 is arranged on the support 1, and the control end of the hydraulic push-pull rod 32 is connected with the main control module. Be equipped with locking block 33 on support 1, be equipped with the locking screw hole on the locking block 33, be equipped with the connecting screw hole that corresponds with locking screw hole position on the agitator 2, the downthehole venthole 14 that is equipped with two pneumatic pipeline 13 of fixing bolt in the locking screw increases in proper order from the past to back aperture, and venthole 14 on the other diminishes in proper order from the past to back aperture. The wall of the air outlet hole 14 on the pneumatic pipeline 13 is provided with threads, and the air outlet hole 14 is matched with a detachable threaded plug. The movable cover plate 11 is provided with a stirring shaft through hole 25, the stirring shaft 4 passes through the stirring shaft through hole 25, an elastic airtight ring 26 is arranged in the stirring shaft through hole 25, the outer wall of the elastic airtight ring 26 is tightly attached to the inner wall of the stirring shaft through hole 25, and the inner wall of the elastic airtight ring 26 is tightly attached to the stirring shaft 4. Elastomeric air seal ring 26 is either a solid structure or a hollow structure. When the elastic airtight ring 26 is of a hollow structure, the inner part of the elastic airtight ring has no filler or has a filler, and the filler is a rubber ball 27, a jelly-like colloid 28 or a uniformly distributed rubber ring 29. The movable cover plate 11 is provided with a material filling pipe 21, and an opening of the material filling pipe 21 is provided with an opening device. The movable cover plate 11 is provided with a sight glass 22. The discharge pipe is provided with a discharge valve 3. The discharge valve 3 is an electric control valve, and the control end of the discharge valve 3 is connected with the main control module.

Claims (28)

1. The utility model provides a pneumatic catalysis agitating unit, includes agitator (2), be equipped with on agitator (2) and arrange the material pipe, be equipped with (mixing) shaft (4) in agitator (2), the below of (mixing) shaft (4) is equipped with stirring vane (5), the top and the power device interlock of (mixing) shaft (4), its characterized in that: the stirring device is characterized in that 2 stirring shafts (4) are arranged in the stirring barrel (2), the power device is a double-gear type motor box (6), two mutually meshed pneumatic gears are arranged in the double-gear type motor box (6), the pneumatic gears are sleeved at the top end of the stirring shafts (4), an air inlet (7) and an air outlet (8) are arranged on the double-gear type motor box (6), the air outlet (8) is connected with an exhaust pipeline (10), the front end of the exhaust pipeline (10) penetrates through a movable cover plate (11) at the top of the stirring barrel (2) and then is connected with a pneumatic pipeline (13) in the stirring barrel (2), air outlet holes (14) with uniform intervals are formed in the pneumatic pipeline (13), a rotating speed detector (36) is arranged on the stirring shaft (4), and the output end of the rotating speed detector (36) is connected with a main control module; the two pneumatic pipelines (13) are arranged, the front ends of the two pneumatic pipelines (13) are connected with two outlets of the three electric control valves (12), inlets of the three electric control valves (12) are connected with the front end of the exhaust pipeline (10), and the control ends of the three electric control valves (12) are connected with the main control module; air inlet (7) link to each other with air conveyer (18) through connecting pipe (9) admits air, connecting pipe (9) rear portion admits air is equipped with gaseous adding valve (19), gaseous adding valve (19) are electric control valve, the control end that gaseous adding valve (19) links to each other with host system, the control end of air conveyer (18) links to each other with host system.

2. A pneumatic catalytic agitator as claimed in claim 1, wherein: the air outlet hole (14) on one of the two pneumatic pipelines (13) is sequentially increased in diameter from front to back, and the air outlet hole (14) on the other one is sequentially decreased in diameter from front to back.

3. A pneumatic catalytic agitator as claimed in claim 1, wherein: the pneumatic pipeline is characterized in that threads are arranged on the wall of an air outlet hole (14) in the pneumatic pipeline (13), and a detachable thread plug is matched with the air outlet hole (14).

4. A pneumatic catalytic agitator as claimed in claim 3, wherein: the front part of the air inlet connecting pipe (9) is provided with a gas flow controller (23), the gas flow controller (23) is an electric control valve, and the alarm output end of the gas flow controller (23) is connected with the main control module.

5. A pneumatic catalytic mixing apparatus according to claim 4, wherein: and a gas composition detector (20) is arranged between the gas adding valve (19) and the gas flow controller (23), and an alarm output end and a signal output end of the gas composition detector (20) are connected with the main control module.

6. A pneumatic catalytic agitator as claimed in claim 1, wherein: the rear portion of the exhaust pipeline (10) is provided with a gas adding valve (19), the gas adding valve (19) is an electric control valve, and the control end of the gas adding valve (19) is connected with the main control module.

7. A pneumatic catalytic mixing apparatus according to claim 6, wherein: the gas composition detector (20) is arranged on the exhaust pipeline (10), the gas composition detector (20) is located in front of the gas adding valve (19), and an alarm output end and a signal output end of the gas composition detector (20) are connected with the main control module.

8. A pneumatic catalytic agitator as claimed in claim 1, wherein: the double-gear type motor box (6) is arranged on the movable cover plate (11) through a supporting device.

9. A pneumatic catalytic agitator as claimed in claim 8, wherein: the supporting device comprises an outer sleeve (15) and an inner sleeve (16), the outer sleeve (15) and the inner sleeve (16) are sleeved with each other, the upper end of the outer sleeve (15) is connected with the bottom surface of the double-gear motor box (6), and the lower end of the inner sleeve (16) is connected with the top surface of the movable cover plate (11).

10. A pneumatic catalytic agitator as claimed in claim 9, wherein: the outer sleeve (15) and the inner sleeve (16) are in threaded connection.

11. A pneumatic catalytic agitator as claimed in claim 10, wherein: a bearing (24) is arranged between the top end of the outer sleeve (15) and the double-gear motor box (6), the bearing (24) is fixed at the bottom of the double-gear motor box (6), and the top end of the outer sleeve (15) is sleeved in the bearing (24).

12. A pneumatic catalytic agitator as claimed in claim 11, wherein: be equipped with rotation control ware (17) on outer sleeve (15), rotation control ware (17) are a screw drive pole, be equipped with the screw thread with screw drive pole looks adaptation on outer sleeve (15) outer wall.

13. A pneumatic catalytic agitator as claimed in claim 12, wherein: the inner sleeve (16) is provided with a longitudinal scale line.

14. A pneumatic catalytic agitator as claimed in claim 13, wherein: the tail end of the rotation controller (17) is connected with a transmission shaft of the adjusting motor (35), and the control end of the adjusting motor (35) is connected with the main control module.

15. A pneumatic catalytic agitator as claimed in claim 1, wherein: the stirring shaft penetrating hole (25) is formed in the movable cover plate (11), the stirring shaft (4) penetrates through the stirring shaft penetrating hole (25), an elastic airtight ring (26) is installed in the stirring shaft penetrating hole (25), the outer wall of the elastic airtight ring (26) is tightly attached to the inner wall of the stirring shaft penetrating hole (25), and the inner wall of the elastic airtight ring (26) is tightly attached to the stirring shaft (4).

16. A pneumatic catalytic agitator as claimed in claim 15, wherein: the elastic airtight ring (26) is of a solid structure.

17. A pneumatic catalytic agitator as claimed in claim 15, wherein: the elastic airtight ring (26) is of a hollow structure.

18. A pneumatic catalytic agitator as claimed in claim 17, wherein: the elastic airtight ring (26) of the hollow structure is not filled with filler.

19. A pneumatic catalytic agitator as claimed in claim 17, wherein: and the elastic airtight ring (26) with the hollow structure is filled with rubber balls (27).

20. A pneumatic catalytic agitator as claimed in claim 17, wherein: the elastic airtight ring (26) with the hollow structure is filled with jelly-shaped colloid (28).

21. A pneumatic catalytic agitator as claimed in claim 17, wherein: and a rubber ring (29) with uniform distribution is arranged in the elastic airtight ring (26) with the hollow structure.

22. A pneumatic catalytic agitator as claimed in claim 1, wherein: the movable cover plate (11) is provided with a material filling pipe (21), and an opening and closing device is arranged on an opening of the material filling pipe (21).

23. A pneumatic catalytic agitator as claimed in claim 22, wherein: and the movable cover plate (11) is provided with an observation mirror (22).

24. A pneumatic catalytic agitator as claimed in claim 1, wherein: be equipped with semi-axis (30) of symmetry on agitator (2), agitator (2) are installed on support (1), be equipped with arc support limit (30) on support (1), semi-axis (30) suit is in the middle of arc support limit (30).

25. A pneumatic catalytic agitator as claimed in claim 24, wherein: the stirring device is characterized in that a connecting shaft (37) is arranged on the stirring barrel (2), the connecting shaft (37) is connected with the front end of a hydraulic push-pull rod (32), the rear end of the hydraulic push-pull rod (32) is installed on the support (1), and the control end of the hydraulic push-pull rod (32) is connected with the main control module.

26. A pneumatic catalytic agitator as claimed in claim 25, wherein: be equipped with locking block (33) on support (1), be equipped with the locking screw hole on locking block (33), be equipped with the connecting thread hole that corresponds with locking screw hole position on agitator (2), the threaded hole that is equipped with fixing bolt (34) of locking, the connecting thread hole that is equipped with on locking block (33) screw in agitator (2) is passed to the front end of fixing bolt (34).

27. A pneumatic catalytic agitator as claimed in claim 1, wherein: and a discharge valve (3) is arranged on the discharge pipe.

28. A pneumatic catalytic agitator as claimed in claim 27, wherein: the discharge valve (3) is an electric control valve, and the control end of the discharge valve (3) is connected with the main control module.

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