CN113695225A

CN113695225A - Lime powder detects processing system

Info

Publication number: CN113695225A
Application number: CN202111009562.9A
Authority: CN
Inventors: 陈加明
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-11-26

Abstract

The invention belongs to the field of industrial detection, and relates to a lime powder detection and treatment system which comprises a shell, wherein a transmission cavity is arranged on the upper side of the shell, a transmission device is arranged in the transmission cavity, a detection cavity is arranged on the left side of the shell, a detection device is arranged in the detection cavity, a cleaning cavity is arranged on the right side of the shell, a cleaning device is arranged in the cleaning cavity, a collection cavity is arranged on the lower side of the shell, and a collection device is arranged in the collection cavity. The mechanism provided by the invention can be used for vibration screening in a pneumatic mode, so that the stability and the continuity of the mechanism in the operation process are ensured, unqualified lime can be stored and collected after screening by the detection mechanism, the processing efficiency of the detection mechanism is improved, the kinetic energy transmission of the partial collection devices is realized by the gravity of the lime, the mechanism is provided with a dust treatment device, powder generated by the lime enters the detection mechanism due to the vibration of the mechanism, the cleaning mechanism can clean the lime in the air, and the service life of the devices in the mechanism is prolonged.

Description

Lime powder detects processing system

Technical Field

The invention belongs to the field of industrial detection, and particularly relates to a lime powder detection and treatment system.

Background

As is well known, at any time, the cement quantity is increasing day by day, the lime output and the quality demand of cement raw materials also need continuous promotion, consequently, the demand of lime detection mechanism also does not improve, but traditional lime detection mechanism often uses mechanical shock, make mechanical structure damage easily, shorten the life-span of mechanism, secondly, many traditional detection mechanisms do not have collection device and need artifical collection recovery efficiency low, or have collection device but because unqualified lime quantity makes the device open the lossy energy always too little, at last because detection mechanism's operation, make detection mechanism memory have the dust, therefore the dust can make the mechanism harm, can lead to the mechanism can not move.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a lime powder detection and treatment system, which adopts a pneumatic vibration mode to ensure that vibration is stable and continuous, and increases the recovery of unqualified products and the dust cleaning function.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a lime powder detects processing system, includes the casing, the casing upside is equipped with the transmission chamber, the transmission intracavity is equipped with transmission, and transmission is used for realizing detection mechanism's kinetic energy transmission, the casing left side is equipped with the detection chamber, it is equipped with detection device to detect the intracavity, and detection device is used for detecting the lime granule, the casing right side is equipped with the clearance chamber, the clearance intracavity is equipped with cleaning device, and cleaning device is arranged in the dust of clean detection mechanism, the casing downside is equipped with collects the chamber, it is equipped with collection device to collect the intracavity, and collection device is used for collecting unqualified lime raw materials.

Preferably, the transmission device comprises a direct current motor fixed in the transmission cavity, the output end of the direct current motor is provided with a direct current motor shaft, the left side of the direct current motor shaft is rotatably connected to the left side wall of the transmission cavity, a material conveying helical gear is fixedly arranged on the left side of the direct current motor shaft, a belt conveying helical gear is fixedly arranged on the right side of the direct current motor shaft, a belt conveying shaft is rotatably arranged on the rear side wall of the transmission cavity, a vibration helical gear is fixedly arranged on the belt conveying shaft, and the vibration helical gear is meshed with the belt conveying helical gear.

Preferably, the detection device comprises a feeding paddle rotatably connected to the upper side wall of the detection cavity, the upper end of the feeding paddle extends into the transmission cavity, a feeding helical gear is fixedly arranged at the upper side end of the feeding paddle and is meshed with the feeding helical gear, a funnel is fixedly arranged on the upper side wall of the detection cavity, a detection partition plate is fixedly arranged in the detection cavity and is fixedly connected with the funnel, a left vibration wheel shaft is rotatably arranged on the rear side wall of the detection cavity, a left vibration wheel is fixedly arranged on the left vibration wheel shaft, a vibration belt is connected between the left vibration wheel and a circular groove behind the vibration helical gear, a fan head sliding groove shaft is rotatably arranged on the rear side wall of the detection cavity, a fan head sliding groove is fixedly arranged on the fan head sliding groove shaft and is meshed with the left vibration wheel, and a left vibration rack is slidably arranged on the rear side wall of the detection cavity, the left piston rod is fixedly arranged on the left side of the left vibration rack, the left vibration rack is matched with a gear at the lower end of the fan head sliding groove, and a left gas collecting pipe is fixedly arranged on the rear side wall of the detection cavity.

Preferably, the inner side wall of the detection cavity is rotatably provided with a right vibration wheel shaft, a right vibration wheel is fixedly arranged on the right vibration wheel shaft, the right vibration wheel and the left vibration wheel are connected with a vibration belt, the rear side wall of the detection cavity is provided with an L-shaped frame shaft, an L-shaped frame is fixedly arranged on the L-shaped frame shaft, the L-shaped frame is matched with the right vibration wheel, the rear side wall of the detection cavity is connected with a T-shaped frame in a sliding way, the T-shaped frame is matched with the L-shaped frame, the T-shaped frame is matched with the right vibrating wheel, a right piston rod is fixedly arranged at the lower side of the T-shaped frame, a right gas collecting pipe is fixedly arranged on the rear side wall of the detection cavity, the right piston rod is in sliding fit with the right gas collecting pipe, the gas-vibration filter screen is fixedly arranged in the detection cavity, a gas cavity on the left side of the gas-vibration filter screen is connected with the left side of the left gas collecting pipe, and a gas cavity on the right side of the gas-vibration filter screen is connected with the lower side of the right gas collecting pipe.

Preferably, the cleaning device comprises a dust sensing single machine fixed on the lower side of the cleaning cavity, a dust sensing motor shaft is arranged at the output end of the dust sensing single machine, a direct current motor gear is fixedly arranged on the dust sensing motor shaft, an air pump is fixedly arranged below the cleaning cavity, an air pump shaft is rotatably arranged on the air pump, an air pump gear is fixedly arranged on the air pump shaft, the air pump gear is meshed with the direct current motor gear, a poking shaft is rotatably arranged on the rear side wall of the cleaning cavity, a poking gear is fixedly arranged on the poking shaft, the poking gear is meshed with the direct current motor gear, a poking wheel shaft is rotatably arranged on the front side wall of the cleaning cavity, a poking wheel is fixedly arranged on the rear side of the poking wheel shaft, the poking wheel is matched with a cylinder on the poking gear in a poking way, a lime cleaner is arranged on the front side of the poking wheel shaft, and a gas collecting pipe is connected with the air pump, and the lime cleaner and the right side wall of the cleaning cavity are connected with an air release pipe.

Preferably, the collection device is including fixing collection vat on the collection chamber right side wall, it is equipped with the collection axle to rotate on the collection chamber rear side wall, collect epaxial fixed collection wheel that is equipped with, it collects the fan to slide in the collection wheel to be equipped with, collect the fan with collection wheel in-connection is equipped with the spring, it is fixed to be equipped with the drum shell to collect chamber rear side wall, the drum shell with collect the cooperation of fan, it is equipped with two axis of rotation, every to collect chamber rear side wall improved level and rotate, every the fixed rotation wheel that is equipped with in the axis of rotation, two it is equipped with the rotation area to rotate to connect between the wheel, it takes fixedly to be equipped with two collectors to rotate, rotate the wheel with spring coupling is equipped with the collection belt.

When lime needs to be detected, the direct current motor is started, torque is transmitted through a direct current motor shaft, the material transmission helical gear is rotated to drive the material loading paddle to rotate, lime is loaded, the rotation of the material transmission helical gear drives the vibration helical gear, the vibration belt is moved, the left vibration wheel is rotated, the L-shaped frame shaft matched with the vibration belt is enabled to generate certain intermittent rotary motion around the fan head sliding groove shaft, so that the horizontal intermittent motion of the left piston rod is driven, the air cavity in the left air collecting pipe is enabled to generate high and low pressure, the air in the air cavity on the left side of the air vibration filter screen is enabled to expand and contract, meanwhile, the vibration belt enables the right vibration wheel to rotate, the L-shaped frame is enabled to rotate through the two small cylinders on the right vibration wheel, the T-shaped frame is driven to intermittently move in the vertical direction, the intermittent motion of the right piston rod is driven, and the air cavity in the right air collecting pipe is enabled to generate high and low pressures, make it gas in the gas chamber of gas shock filter screen right side produce inflation and shrink, make the holistic mechanism of gas shock filter screen produce the translation vibrations, make from the material loading oar material loading as lime, enter into the gas through the material loading oar and shake on the filter screen, through the vibrations of gas shock filter screen, qualified lime powder passes through the gas shock filter screen to divide from the detection mechanism downside.

Unqualified lime powder enters into through the collecting vat and collects the fan top and store, make when unqualified lime is too little, collection device can not produce the motion, make when unqualified lime too much, because the gravity of lime self, make the collection wheel produce around the rotation of collecting the axle, make the lime of collecting on the fan enter into the dolly and collect, when the collection axle takes place to rotate, it also rotates simultaneously through L type frame to rotate the wheel, and drive and rotate the area and remove, make the lime branch out detection mechanism in the last batch dolly, help returning the factory processing, and the efficiency is improved.

When the detection mechanism moves, the dust sensing unit can detect the dust concentration in the mechanism, when the dust concentration exceeds the standard, the dust sensing unit is started, the air pump is driven to start through the meshing of the direct-current motor gear and the air pump shaft gear, so that air in the mechanism is absorbed, the dial wheel is driven to do semicircular rotary intermittent motion around the dial wheel shaft through the meshing of the direct-current motor gear and the dial wheel gear, the lime cleaner on the dial wheel shaft is driven to work, the air in the air pump enters the lime cleaner through the air receiving pipe to be cleaned, and finally the cleaned air is discharged out of the detection mechanism through the air discharging pipe, so that the effect of cleaning the air is generated, and the service life of the detection mechanism is prolonged.

Compared with the prior art, this lime powder detects processing system has following advantage:

1. this detection mechanism shakes the screening through pneumatic mode, has guaranteed the mechanism steady and lasting in the operation process, has increased detection mechanism's life-span, improves economic benefits.

2. This detection mechanism can store the collection to unqualified lime after the screening to in the process of doing over again to unqualified lime provides convenience, makes its machining efficiency improve, and this part collection device realizes the kinetic energy transmission by lime self gravity, has practiced thrift the resource.

3. The mechanism is provided with a dust processing device, and when the mechanism vibrates, lime powder enters the detection mechanism, the cleaning mechanism can clean the lime in the air, so that the service life of the device in the mechanism is prolonged.

Drawings

Fig. 1 is a schematic structural diagram of a lime powder detection processing system.

Fig. 2 is an enlarged view of a structure a in fig. 1.

Fig. 3 is an enlarged view of the structure at B in fig. 1.

Fig. 4 is an enlarged view of the structure at C in fig. 1.

Fig. 5 is an enlarged view of the structure at D in fig. 1.

In the figure, 10, the housing; 11. a transmission cavity; 12. a DC motor shaft; 14. feeding the helical gear; 15. a funnel; 16. a detection chamber; 17. detecting the partition board; 18. a feeding paddle; 19. an air vibration filter screen; 22. a material conveying helical gear; 23. vibrating the bevel gear; 24. a belt conveying helical gear; 25. a dust induction motor shaft; 26. a direct current motor; 28. a dust induction single machine; 29. cleaning the cavity; 30. discharging the air pipe; 32. shifting gears; 33. a gas collecting pipe; 34. an air pump; 35. an air pump shaft; 36. an air pump gear; 38. a DC motor gear; 39. a collection chamber; 40. a left piston rod; 41. a left gas collecting pipe; 42. vibrating the belt; 43. a fan head chute; 44. a left vibration wheel; 45. a left shaking wheel axle; 46. a left vibration rack; 47. a right vibration wheel; 50. a right piston rod; 51. a right gas collecting pipe; 52. a right shock axle; 53. an L-shaped frame shaft; 54. an L-shaped frame; 55. a T-shaped frame; 58. a thumb wheel; 59. a dial axle; 60. a lime cleaner; 61. a rotating shaft is pulled; 62. collecting tank; 63. a drum shell; 64. collecting the belt; 65. a rotating wheel; 66. a rotating shaft; 67. a rotating belt; 68. a collection fan; 69. a spring; 70. a collection shaft; 71. a collection wheel; 72. a collector; 73. a belt shaft; 74. fan head chute axis.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a lime powder detects processing system, including casing 10, casing 10 upside is equipped with transmission chamber 11, be equipped with transmission in the transmission chamber 11, transmission is used for realizing detection mechanism's kinetic energy transmission, casing 10 left side is equipped with detects chamber 16, it is equipped with detection device in the chamber 16 to detect, and detection device is used for detecting the lime granule, the casing 10 right side is equipped with clearance chamber 29, be equipped with cleaning device in the clearance chamber 29, cleaning device is arranged in the dust of clean detection mechanism, casing 10 downside is equipped with collects chamber 39, be equipped with collection device in the collection chamber 39, collection device is used for collecting unqualified lime raw materials.

As shown in fig. 1, the transmission device includes a dc motor 26 fixed in the transmission cavity 11, the output end of the dc motor 26 is provided with a dc motor shaft 12, the left side of the dc motor shaft 12 is rotatably connected to the left side wall of the transmission cavity 11, the left side of the dc motor shaft 12 is fixedly provided with a material conveying helical gear 22, the right side of the dc motor shaft 12 is fixedly provided with a belt conveying helical gear 24, the rear side wall of the transmission cavity 11 is rotatably provided with a belt conveying shaft 73, the belt conveying shaft 73 is fixedly provided with a vibration helical gear 23, and the vibration helical gear 23 is meshed with the belt conveying helical gear 24.

As shown in fig. 1 and 2, the detecting device includes a feeding paddle 18 rotatably connected to the upper side wall of the detecting cavity 16, the upper end of the feeding paddle 18 extends into the transmission cavity 11, a feeding helical gear 14 is fixedly arranged at the upper side end of the feeding paddle 18, the feeding helical gear 14 is engaged with the material transmission helical gear 22, a funnel 15 is fixedly arranged at the upper side wall of the detecting cavity 16, a detecting partition 17 is fixedly arranged in the detecting cavity 16, the detecting partition 17 is fixedly connected with the funnel 15, a left vibrating wheel shaft 45 is rotatably arranged at the rear side wall of the detecting cavity 16, a left vibrating wheel 44 is fixedly arranged on the left vibrating wheel shaft 45, a vibrating belt 42 is connected to a circular groove behind the vibrating helical gear 23 on the left vibrating wheel 44, a fan head chute shaft 74 is rotatably arranged at the rear side wall of the detecting cavity 16, a fan head chute 43 is fixedly arranged on the fan head chute shaft 74, the fan head chute 43 is matched with the left vibrating wheel 44, the rear side wall of the detection cavity 16 is provided with a left vibration rack 46 in a sliding manner, the left side of the left vibration rack 46 is fixedly provided with a left piston rod 40, the left vibration rack 46 is meshed with a gear at the lower end of the fan-head sliding groove 43, and the rear side wall of the detection cavity 16 is fixedly provided with a left gas collecting pipe 41.

As shown in fig. 1 and 3, a right vibration wheel shaft 52 is rotatably disposed on the inner side wall of the detection chamber 16, a right vibration wheel 47 is fixedly disposed on the right vibration wheel shaft 52, the right vibration wheel 47 is connected with the left vibration wheel 44 to be provided with a vibration belt 42, an L-shaped frame shaft 53 is disposed on the rear side wall of the detection chamber 16, an L-shaped frame 54 is fixedly disposed on the L-shaped frame shaft 53, the L-shaped frame 54 is matched with the right vibration wheel 47, a T-shaped frame 55 is slidably connected to the rear side wall of the detection chamber 16, the T-shaped frame 55 is matched with the L-shaped frame 54, the T-shaped frame 55 is matched with the right vibration wheel 47, a right piston rod 50 is fixedly disposed on the lower side of the T-shaped frame 55, a right gas collecting pipe 51 is fixedly disposed on the rear side wall of the detection chamber 16, the right piston rod 50 is slidably matched with the right gas collecting pipe 51, a gas screen 19 is fixedly disposed in the detection chamber 16, and the left side of the gas screen 19 is connected with the left side of the left gas collecting pipe 41, the right air cavity of the gas shock filter screen 19 is connected with the lower side of the right gas collecting pipe 51.

As shown in fig. 1 and 5, the cleaning device includes a dust sensing single machine 28 fixed on the lower side of the cleaning cavity 29, a dust sensing motor shaft 25 is arranged at the output end of the dust sensing single machine 28, a direct current motor gear 38 is fixedly arranged on the dust sensing motor shaft 25, an air pump 34 is fixedly arranged below the cleaning cavity 29, an air pump shaft 35 is rotatably arranged on the air pump 34, an air pump gear 36 is fixedly arranged on the air pump shaft 35, the air pump gear 36 is engaged with the direct current motor gear 38, a dial rotating shaft 61 is rotatably arranged on the rear side wall of the cleaning cavity 29, a dial gear 32 is fixedly arranged on the dial rotating shaft 61, the dial gear 32 is engaged with the direct current motor gear 38, a dial wheel shaft 59 is rotatably arranged on the front side wall of the cleaning cavity 29, a dial wheel 58 is fixedly arranged on the rear side of the dial wheel shaft 59, the dial wheel 58 is in dial fit with a cylinder on the dial gear 32, a lime cleaner 60 is arranged on the front side of the poking wheel shaft 59, the lime cleaner 60 is connected with the air pump 34 and provided with an air collecting pipe 33, and the lime cleaner 60 is connected with the right side wall of the cleaning cavity 29 and provided with an air discharging pipe 30.

As shown in fig. 1 and 4, the collecting device includes a collecting groove 62 fixed on the right side wall of the collecting cavity 39, a collecting shaft 70 is arranged on the rear side wall of the collecting cavity 39 in a rotating manner, a collecting wheel 71 is fixedly arranged on the collecting shaft 70, a collecting fan 68 is arranged in the collecting wheel 71 in a sliding manner, a spring 69 is arranged in the collecting wheel 71 in a connecting manner, a drum shell 63 is fixedly arranged on the rear side wall of the collecting cavity 39, the drum shell 63 is matched with the collecting fan 68, two rotating shafts 66 are horizontally arranged on the rear side wall of the collecting cavity 39 in a rotating manner, each rotating wheel 65 is fixedly arranged on the rotating shaft 66, two rotating belts 67 are arranged between the rotating wheels 65 in a connecting manner, two collectors 72 are fixedly arranged on the rotating belts 67, and the rotating wheels 65 are connected with the spring 69 to form a collecting belt 64.

When lime needs to be detected, the direct current motor 26 is started, the torque is transmitted through the direct current motor shaft 12, the material transmission helical gear 22 rotates to drive the material feeding paddle 18 to rotate, lime is fed, the rotation of the material transmission helical gear 24 drives the vibration helical gear 23, the vibration belt 42 moves, the left vibration wheel 44 rotates, the L-shaped frame shaft 53 matched with the vibration belt rotates around the fan head sliding groove shaft 74 at a certain interval, so that the horizontal interval motion of the left piston rod 40 is driven, the air cavity in the left air collecting pipe 41 generates high and low pressure, the air in the air cavity on the left side of the air vibration filter screen 19 expands and contracts, meanwhile, the vibration belt 42 also rotates the right vibration wheel 47, the L-shaped frame 54 rotates through two small cylinders on the right vibration wheel 47, the L-shaped frame 54 moves intermittently in the vertical direction of the T-shaped frame 55, so that the intermittent movement of the right piston rod 50 is driven, the air cavity in the right air collecting pipe 51 generates high pressure and low pressure, so that the air in the air cavity on the right side of the gas vibration filter screen 19 expands and contracts, the whole mechanism of the gas vibration filter screen 19 generates translational vibration, when lime is fed from the feeding paddle 18, the lime enters the gas vibration filter screen 19 through the feeding paddle 18, and qualified lime powder passes through the gas vibration filter screen 19 and is separated from the lower side of the detection mechanism to be in a working state.

Unqualified lime powder enters into through collecting vat 62 and collects fan 68 top and store, make as unqualified lime too little, collection device can not produce the motion, too much make as unqualified lime, because the gravity of lime self, make collection wheel 71 produce the rotation around collecting axle 70, make the lime that collects on the fan 68 enter into dolly 72 and collect, when collecting axle 70 takes place to rotate, it also rotates simultaneously through L type frame 54 to rotate wheel 65, and drive and rotate area 67 and remove, make the lime branch detection mechanism in the last batch dolly, help returning factory processing, the lifting efficiency here is operating condition.

When the detection mechanism operates, the dust sensing single machine 28 can detect the dust concentration in the mechanism, when the dust concentration exceeds the standard, the dust sensing single machine 28 is started, the air pump 34 is driven to start through the gear engagement of the direct current motor gear 38 and the air pump shaft 35, so that air in the mechanism is absorbed, the dial wheel 58 is driven to do semicircular rotation intermittent motion around the dial wheel shaft 59 through the engagement of the direct current motor gear 38 and the dial wheel 32, the lime cleaner 60 on the dial wheel shaft 59 is driven to work, the air in the air pump 34 enters the lime cleaner 60 through the air collecting pipe 33 to be cleaned, and finally the cleaned air is discharged out of the detection mechanism through the air discharging pipe 30, so that the effect of cleaning air is generated, and the service life of the detection mechanism is prolonged to be in a working state.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a lime powder detects processing system, includes casing (10), its characterized in that, casing (10) upside is equipped with transmission chamber (11), be equipped with transmission in transmission chamber (11), transmission is used for realizing detection mechanism's kinetic energy transmission, casing (10) left side is equipped with detects chamber (16), be equipped with detection device in detecting chamber (16), detection device is used for detecting the lime granule, casing (10) right side is equipped with clearance chamber (29), be equipped with cleaning device in clearance chamber (29), cleaning device is arranged in the dust of clean detection mechanism, casing (10) downside is equipped with collects chamber (39), be equipped with collection device in collection chamber (39), collection device is used for collecting unqualified lime raw materials.

2. The lime powder detecting and processing system according to claim 1, wherein: the transmission device comprises a direct current motor (26) fixed in a transmission cavity (11), wherein the output end of the direct current motor (26) is provided with a direct current motor shaft (12), the left side of the direct current motor shaft (12) is rotatably connected to the left side wall of the transmission cavity (11), a material conveying helical gear (22) is fixedly arranged on the left side of the direct current motor shaft (12), a belt conveying helical gear (24) is fixedly arranged on the right side of the direct current motor shaft (12), a belt conveying shaft (73) is rotatably arranged on the rear side wall of the transmission cavity (11), a vibration helical gear (23) is fixedly arranged on the belt conveying shaft (73), and the vibration helical gear (23) is meshed with the belt conveying helical gear (24).

3. The lime powder detection processing system of claim 2, wherein: the detection device comprises a feeding paddle (18) which is rotatably connected to the upper side wall of the detection cavity (16), the upper end of the feeding paddle (18) extends into the transmission cavity (11), a feeding helical gear (14) is fixedly arranged at the upper side end of the feeding paddle (18), the feeding helical gear (14) is meshed with the material transmission helical gear (22), a funnel (15) is fixedly arranged on the upper side wall of the detection cavity (16), a detection partition plate (17) is fixedly arranged in the detection cavity (16), the detection partition plate (17) is fixedly connected with the funnel (15), a left vibration wheel shaft (45) is rotatably arranged on the rear side wall of the detection cavity (16), a left vibration wheel (44) is fixedly arranged on the left vibration wheel shaft (45), a vibration belt (42) is connected with a circular groove on the vibration helical gear (23) through the left vibration wheel (44), and a fan head sliding groove shaft (74) is rotatably arranged on the rear side wall of the detection cavity (16), the fan head sliding groove shaft (74) is fixedly provided with a fan head sliding groove (43), the fan head sliding groove (43) is in sliding fit with the left vibration wheel (44), the rear side wall of the detection cavity (16) is provided with a left vibration rack (46) in a sliding mode, the left side of the left vibration rack (46) is fixedly provided with a left piston rod (40), the left vibration rack (46) is meshed with a gear at the lower end of the fan head sliding groove (43), and the rear side wall of the detection cavity (16) is fixedly provided with a left gas collecting pipe (41).

4. The lime powder detection processing system of claim 3, wherein: the detection device is characterized in that a right vibration wheel shaft (52) is arranged on the inner side wall of the detection cavity (16) in a rotating mode, a right vibration wheel shaft (47) is fixedly arranged on the right vibration wheel shaft (52), the right vibration wheel (47) is connected with the left vibration wheel (44) and is provided with a vibration belt (42), an L-shaped frame shaft (53) is arranged on the rear side wall of the detection cavity (16), an L-shaped frame (54) is fixedly arranged on the L-shaped frame shaft (53), the L-shaped frame (54) is matched with the right vibration wheel (47), a T-shaped frame (55) is slidably connected on the rear side wall of the detection cavity (16), the T-shaped frame (55) is matched with the L-shaped frame (54), the T-shaped frame (55) is matched with the right vibration wheel (47), a right piston rod (50) is fixedly arranged on the lower side of the T-shaped frame (55), a right gas collecting pipe (51) is fixedly arranged on the rear side wall of the detection cavity (16), and the right piston rod (50) is in sliding fit with the right gas collecting pipe (51), the gas-shock detection device is characterized in that a gas-shock filter screen (19) is fixedly arranged in the detection cavity (16), a gas cavity on the left side of the gas-shock filter screen (19) is connected with the left side of the left gas collecting pipe (41), and a gas cavity on the right side of the gas-shock filter screen (19) is connected with the lower side of the right gas collecting pipe (51).

5. The lime powder detection processing system of claim 4, wherein: the cleaning device comprises a dust sensing single machine (28) fixed on the lower side of the cleaning cavity (29), a dust sensing motor shaft (25) is arranged at the output end of the dust sensing single machine (28), a direct current motor gear (38) is fixedly arranged on the dust sensing motor shaft (25), an air pump (34) is fixedly arranged below the cleaning cavity (29), an air pump shaft (35) is arranged on the air pump (34) in a rotating mode, an air pump gear (36) is fixedly arranged on the air pump shaft (35), the air pump gear (36) is meshed with the direct current motor gear (38), a poking rotating shaft (61) is arranged on the rear side wall of the cleaning cavity (29) in a rotating mode, a poking rotating gear (32) is fixedly arranged on the poking rotating shaft (61), the poking rotating gear (32) is meshed with the direct current motor gear (38), a poking wheel shaft (59) is arranged on the front side wall of the cleaning cavity (29) in a rotating mode, the rear side of the poking wheel shaft (59) is fixedly provided with a poking wheel (58), the poking wheel (58) is in poking fit with a cylinder in the poking gear (32), the front side of the poking wheel shaft (59) is provided with a lime cleaner (60), the lime cleaner (60) is connected with the air pump (34) and is provided with an air collecting pipe (33), and the lime cleaner (60) is connected with the right side wall of the cleaning cavity (29) and is provided with an air discharging pipe (30).

6. The lime powder detection processing system of claim 5, wherein: the collecting device comprises a collecting trough (62) fixed on the right side wall of the collecting cavity (39), a collecting shaft (70) is rotatably arranged on the rear side wall of the collecting cavity (39), a collecting wheel (71) is fixedly arranged on the collecting shaft (70), a collecting fan (68) is arranged in the collecting wheel (71) in a sliding way, a spring (69) is connected and arranged in the collecting fan (68) and the collecting wheel (71), a barrel shell (63) is fixedly arranged on the rear side wall of the collecting cavity (39), the barrel shell (63) is matched with the collecting fan (68), two rotating shafts (66) are horizontally and rotatably arranged on the rear side wall of the collecting cavity (39), each rotating shaft (66) is fixedly provided with a rotating wheel (65), a rotating belt (67) is connected between the two rotating wheels (65), two collectors (72) are fixedly arranged on the rotating belt (67), and a collecting belt (64) is connected with the rotating wheel (65) and the spring (69).