CN117759823B - Real-time monitoring device for carbon content in atmosphere - Google Patents

Abstract

The invention discloses a real-time monitoring device for carbon content in the atmosphere, which comprises a bearing base and a bearing upright post fixedly arranged at the center of the top surface of the bearing base, wherein an analyzer is fixedly arranged at the top end of the bearing upright post; further comprises: the inner center position of the bearing upright post is rotatably provided with an elevating threaded rod through a bearing; the driving mechanism comprises a driving disc body; wherein, monitoring mechanism includes the monitoring disk body, and the inside of monitoring disk body is provided with main drive awl ring gear through the bearing rotation. This atmospheric carbon content real-time monitoring device, through with bear the weight of actuating mechanism and the monitoring mechanism of stand mutual linkage, adjust to the carbon content monitoring of different demands to drive real-time supervision ware by monitoring mechanism and carry out high regulation, and drive real-time supervision ware and carry out the regulation of monitoring scope and monitoring direction, promote the accuracy of real-time supervision ware to carbon content monitoring.

Description

Real-time monitoring device for carbon content in atmosphere

Technical Field

The invention relates to the technical field of carbon content monitoring, in particular to a real-time monitoring device for carbon content in atmosphere.

Background

Atmospheric carbon content refers to the carbon dioxide content in the atmosphere, and the carbon content is usually about 0.03% to 0.04%, although the concentration of carbon dioxide in the air is lower than 2% and does not cause obvious harm to human body, when the carbon dioxide content in the air exceeds the range, the carbon dioxide may cause harm to respiratory organs of human body, and under high concentration, the carbon dioxide may even cause choking of human body, and under normal conditions, the carbon dioxide is not considered as toxic substance, but under specific conditions, the excessive carbon dioxide may pose a threat to human health, so real-time monitoring of carbon content is needed in the environment of certain carbon emission;

The publication number CN219122173U discloses a carbon dioxide monitor, the carbon dioxide monitor alarms through an alarm lamp or a buzzer on the monitor body, and compared with the structure without the air inlet pipe in the prior art, the structure with the air inlet pipe arranged on the monitoring head has the advantage of greatly improving the monitoring sensitivity, and the carbon dioxide monitor is suitable for places with high requirements on the monitoring sensitivity of the carbon dioxide content in the air;

The publication number CN219302405U discloses an automatic on-line monitor for atmospheric carbon monoxide, an air pump can sequentially convey external air into two detection cavities through an air inlet pipe and an air outlet pipe, the carbon monoxide content in the air is detected through carbon monoxide sensors in the two detection cavities, detection signals are transmitted into a detector body and displayed on a display screen, the detection precision is high, and the using effect is improved;

However, the real-time monitoring device for the atmospheric carbon content has the following problems in the actual use process: although the carbon content in the environment is effectively monitored through the integral monitoring device, in actual use, the monitoring device of the type needs to be manually and fixedly installed, only can be installed in the required use environment at fixed points, and the discharge of carbon dioxide can be widely different due to the height of a river basin and can not be uniformly distributed as flowing gas, so that the monitoring mode of the fixed direction and the fixed height has great defects, and the carbon content cannot be effectively monitored.

Therefore, we propose a real-time monitoring device for carbon content in the atmosphere so as to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a real-time monitoring device for carbon content in the atmosphere, which aims to solve the problems that the prior art provides an integral monitoring device for effectively monitoring the carbon content in the environment, but in actual use, the type of monitoring device needs to be manually and fixedly installed, can only be installed in the needed use environment at fixed points, the discharge of carbon dioxide can have a large gap due to the height of a river basin and can not be uniformly distributed as flowing gas, so that the defects of a fixed-direction and fixed-height type monitoring mode exist, and the effective monitoring of the carbon content can not be realized.

In order to achieve the above purpose, the present invention provides the following technical solutions: the real-time monitoring device for the carbon content in the atmosphere comprises a bearing base and a bearing upright post fixedly arranged at the center of the top surface of the bearing base, wherein an analyzer is fixedly arranged at the top end of the bearing upright post;

the outer wall of the bearing upright post is provided with a driving mechanism in a sliding manner, and a monitoring mechanism is arranged below the driving mechanism; further comprises:

The lifting threaded rod is rotatably arranged at the inner center position of the bearing upright post through a bearing, driving rotating shafts are rotatably arranged at the front side and the rear side of the inner part of the bearing upright post through bearings, and guide sliding grooves are formed in the front side and the rear side of the inner part of the bearing upright post;

The driving mechanism comprises a driving disc body, wherein a lifting sleeve is fixedly arranged in the driving disc body, and transmission rotating shafts are rotatably arranged on the front side and the rear side of the inside of the driving disc body through bearings;

The monitoring mechanism comprises a monitoring disc body, wherein the inside of the monitoring disc body is provided with a main driving conical ring gear through bearing rotation, and the inside of the monitoring disc body is provided with an auxiliary driving conical ring gear through bearing equal-angle rotation.

Preferably, the bearing base and the bearing upright posts are combined to form an inverted T-shaped structure, the bearing base is used for improving the installation stability of the bearing upright posts, and the top ends of the lifting threaded rods inside the bearing upright posts and the top ends of the driving rotating shafts on the front side and the rear side are mutually meshed and connected through the sprocket mechanism.

Preferably, the driving mechanism comprises a driving disc body which is slidably arranged in guide sliding grooves on the front side and the rear side of the inner portion of the bearing upright post, a lifting sleeve in the driving disc body is in threaded connection with the lifting threaded rod, the inner ends of the transmission rotating shafts on the front side and the rear side of the inner portion of the driving disc body are respectively connected to the outer wall of the driving rotating shaft in a meshed mode through first bevel gear groups, and the driving rotating shaft is in sliding connection with the first bevel gear groups through protrusions on the front side and the rear side.

Preferably, the driving mechanism comprises guide gears, the guide gears symmetrically rotate on the front side and the rear side of the bottom surface of the driving disc body through bearings, the top rotating shafts of the guide gears on the front side and the rear side are connected to the outer ends of the transmission rotating shafts through second bevel gear groups in a meshed mode, and the guide gears on the front side and the rear side are rotatably arranged in the monitoring disc body.

Preferably, the monitoring mechanism comprises a guide tooth block, the guide tooth block is fixedly mounted on the inner wall of the main driving conical tooth ring in the monitoring disc body at equal angles, the main driving conical tooth ring is connected with the auxiliary driving conical tooth ring arranged in the monitoring disc body at equal angles, and the rotation directions of the auxiliary driving conical tooth rings arranged at equal angles are the same.

Preferably, the monitoring mechanism comprises a guide sleeve, the guide sleeve is fixedly arranged in the auxiliary driving conical ring arranged at equal angles, the monitoring mechanism comprises a guide bracket, the upper end of the guide bracket is provided with a threaded guide groove, and the guide bracket is in threaded connection with the guide sleeve through the threaded guide groove at the upper end.

Preferably, the bottom of the guide bracket that monitoring mechanism contained slides and sets up in the bottom surface of monitoring disk body, and the bottom surface of monitoring disk body passes through the equiangular rotation of bearing and is provided with flexible worm to the tip of adjacent flexible worm passes through third awl tooth group intermeshing and connects, and the tip fixed connection of rear flexible worm is in driving motor's output shaft tip moreover.

Preferably, the monitoring mechanism comprises a real-time monitor, the real-time monitor is rotatably arranged at the bottom end of the guide support arranged at the same angle through a bearing, the top ends of the real-time monitor arranged at the same angle are fixedly provided with driving worm wheels, and the driving worm wheels arranged at the same angle are connected with the telescopic worm in a mutually meshed mode.

Preferably, the real-time monitor that monitoring mechanism contained slides and sets up in the bottom surface of monitoring disk body, and real-time monitor under the initial state is located the bottom surface inboard of monitoring disk body to rise through the monitoring disk body and drive real-time monitor outwards slide out so that carry out work, drive real-time monitor through the meshing of flexible worm and drive worm wheel and carry out rotatory work moreover, promote the comprehensiveness of carbon content monitoring.

Compared with the prior art, the invention has the beneficial effects that: this atmospheric carbon content real-time monitoring device through with bear actuating mechanism and the monitoring mechanism of stand mutual linkage, adjusts to the carbon content monitoring of different demands to drive real-time supervision ware by monitoring mechanism and carry out high regulation, and drive real-time supervision ware and carry out the regulation of monitoring scope and monitoring direction, promote the accuracy of real-time supervision ware to carbon content monitoring, its concrete content is as follows:

1. the motor at the top of the bearing upright post drives the lifting threaded rod and the driving rotating shaft which are arranged inside to rotate, so that the lifting threaded rod drives the lifting sleeve in threaded connection with the outer wall and the driving disc body to lift, and meanwhile, the driving disc body drives the monitoring disc body at the bottom and the real-time monitors distributed at equal angles to adjust the height, so that the carbon content of different atmosphere heights is monitored;

2. The guide gear and the main driving conical gear ring are driven to rotate through the transmission rotating shaft, so that the meshed auxiliary driving conical gear ring and the guide sleeve drive the guide bracket and the real-time monitor to slide outwards synchronously, the real-time monitors stored at the bottom of the monitoring disc body move outwards, the monitoring working ranges of the real-time monitors are further improved, and the accuracy of the real-time monitors on carbon content monitoring is improved;

Further, the driving rotating shaft drives the transmission rotating shaft in meshed connection to rotate in the driving disc body through the first bevel gear group, the transmission rotating shaft drives the guide gear in the monitoring disc body to rotate through the second bevel gear group at the outer end, and meanwhile the guide gear rotates in the monitoring disc body through the meshed guide gear block and the main driving bevel gear ring in the rotating process, so that the requirement of driving a real-time monitor is met;

3. The telescopic worm which is meshed with the constant angle is driven by the driving motor to synchronously rotate, the driving worm wheel which is meshed and connected is driven to rotate at the bottom end of the guide support, and the real-time monitor which is fixedly connected is driven to rotate, so that the monitoring angle of the real-time monitor is adjusted, and the range of the real-time monitor and the diversity of the monitoring direction are improved.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the mounting structure of the driving disc of the present invention;

FIG. 3 is a schematic view of the overall bottom view structure of the present invention;

FIG. 4 is a schematic view of the installation structure of the transmission shaft of the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4A according to the present invention;

FIG. 6 is a schematic view of the installation structure of the guide gear of the present invention;

FIG. 7 is a schematic perspective view of a main driving bevel ring according to the present invention;

FIG. 8 is a schematic view of the bottom construction of the primary drive cone ring of the present invention;

FIG. 9 is a schematic diagram of the real-time monitor mounting structure of the present invention.

In the figure: 1. a load-bearing base; 2. a load-bearing upright; 3. an analyzer; 4. lifting the threaded rod; 5. driving the rotating shaft; 6. a guide chute; 7. driving the tray body; 8. lifting the sleeve; 9. a transmission rotating shaft; 10. monitoring the tray body; 11. a main driving cone ring; 12. the auxiliary driving cone ring gear; 13. a sprocket mechanism; 14. a first set of bevel teeth; 15. a guide gear; 16. a second set of teeth; 17. a guide tooth block; 18. a guide sleeve; 19. a guide bracket; 20. a thread guide groove; 21. a telescopic worm; 22. a third set of cones; 23. a driving motor; 24. a real-time monitor; 25. a drive worm wheel;

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides the following technical solutions:

Example 1: in order to solve the problem that the existing carbon content monitoring device cannot be adjusted in height in the working process, the embodiment adopts the following technical scheme that a motor at the top of a bearing upright post 2 drives a lifting threaded rod 4 and a driving rotating shaft 5 which are arranged inside to rotate, so that the lifting threaded rod 4 drives a lifting sleeve 8 and a driving disc 7 which are in threaded connection with the outer wall to lift, and meanwhile, the driving disc 7 drives a monitoring disc 10 at the bottom and a real-time monitor 24 distributed at equal angles to adjust the height so as to monitor the carbon content of different atmospheric heights;

The device comprises a bearing base 1 and a bearing upright post 2 fixedly arranged at the center of the top surface of the bearing base 1, wherein an analyzer 3 is fixedly arranged at the top end of the bearing upright post 2; the outer wall of the bearing upright post 2 is provided with a driving mechanism in a sliding way, wherein the driving mechanism comprises a driving disc body 7, and a lifting sleeve 8 is fixedly arranged in the driving disc body 7;

The lifting threaded rod 4 is rotatably arranged at the inner center position of the bearing upright post 2 through a bearing, the driving rotating shafts 5 are rotatably arranged at the front side and the rear side of the inner part of the bearing upright post 2 through bearings, and the guiding sliding grooves 6 are formed in the front side and the rear side of the inner part of the bearing upright post 2;

The bearing base 1 and the bearing upright posts 2 are combined to form an inverted T-shaped structure, the bearing base 1 is used for improving the installation stability of the bearing upright posts 2, and the top ends of the lifting threaded rods 4 inside the bearing upright posts 2 and the top ends of the front and rear side driving rotating shafts 5 are connected in a meshed mode through chain wheel mechanisms 13.

The driving mechanism comprises a driving disc body 7 which is arranged in guide sliding grooves 6 on the front side and the rear side of the inside of the bearing upright post 2 in a sliding manner, and a lifting sleeve 8 in the driving disc body 7 is in threaded connection with the lifting threaded rod 4;

As shown in fig. 1 and fig. 3-4, the bearing base 1 is firstly installed for the bearing upright post 2, so that the bearing base 1 promotes the stability of the bearing upright post 2, then the motor at the top of the bearing upright post 2 drives the lifting threaded rod 4 to rotate, and the lifting sleeve 8 in threaded connection with the lifting threaded rod 4 is fixedly connected with the driving disc 7 inside the driving mechanism, so that the driving disc 7 cannot rotate on the outer wall of the bearing upright post 2, and further the rotation of the lifting sleeve 8 is limited, so that the rotation of the lifting threaded rod 4 drives the lifting sleeve 8 and the driving disc 7 to lift, and the monitoring disc 10 and the real-time monitor 24 arranged at the bottom surface with the same angle are driven to adjust the height, so as to monitor the carbon content of different atmosphere heights.

Example 2: in order to solve the problem that the working range of the existing real-time monitor 24 is too limited, the following technical scheme is adopted in the embodiment, the driving shaft 9 drives the guide gear 15 and the main driving conical ring 11 to rotate, so that the meshed auxiliary driving conical ring 12 and the guide sleeve 18 drive the guide bracket 19 and the real-time monitor 24 to slide outwards synchronously, the real-time monitor 24 stored at the bottom of the monitoring disc 10 moves outwards, the monitoring working range of the real-time monitors 24 is further improved, and the accuracy of the real-time monitor 24 for monitoring carbon content is improved;

The front and back sides of the inside of the driving disc body 7 are respectively provided with a transmission rotating shaft 9 through bearings in a rotating way, the inner ends of the transmission rotating shafts 9 at the front and back sides of the inside of the driving disc body 7 are respectively connected with the outer wall of the driving rotating shaft 5 in a meshed way through a first bevel gear group 14, and the driving rotating shaft 5 is in sliding connection with the first bevel gear group 14 through bulges at the front and back sides; a monitoring mechanism is arranged below the driving mechanism; the monitoring mechanism comprises a monitoring disc body 10, wherein a main driving conical tooth ring 11 is rotatably arranged in the monitoring disc body 10 through a bearing, and an auxiliary driving conical tooth ring 12 is rotatably arranged in the monitoring disc body 10 through a bearing at equal angles;

The driving mechanism comprises guide gears 15, the guide gears 15 symmetrically rotate on the front side and the rear side of the bottom surface of the driving disc body 7 through bearings, the top rotating shafts of the guide gears 15 on the front side and the rear side are connected to the outer ends of the transmission rotating shafts 9 through second bevel gear groups 16 in a meshed mode, and the guide gears 15 on the front side and the rear side are rotatably arranged in the monitoring disc body 10; the monitoring mechanism comprises a guide tooth block 17, the guide tooth block 17 is fixedly arranged on the inner wall of a main driving conical tooth ring 11 in the monitoring disc body 10 at equal angles, the main driving conical tooth ring 11 is connected with an auxiliary driving conical tooth ring 12 which is arranged in the monitoring disc body 10 at equal angles, and the rotation directions of the auxiliary driving conical tooth rings 12 which are arranged at equal angles are the same;

As shown in fig. 4-6, the lifting threaded rod 4 in the bearing upright post 2 drives the driving rotating shafts 5 which are in meshed connection with the front side and the rear side to synchronously rotate through the chain wheel mechanism 13, the driving rotating shafts 5 drive the transmission rotating shafts 9 which are in meshed connection to rotate in the driving disc body 7 through the first bevel gear group 14, the transmission rotating shafts 9 drive the guide gears 15 in the monitoring disc body 10 to rotate through the second bevel gear group 16 at the outer end, and meanwhile the guide gears 15 rotate in the monitoring disc body 10 through the meshed guide tooth blocks 17 and the main driving bevel gear ring 11 in the rotating process;

The monitoring mechanism comprises a guide sleeve 18, the guide sleeve 18 is fixedly arranged in the auxiliary driving conical ring 12 arranged at equal angles, the monitoring mechanism comprises a guide bracket 19, the upper end of the guide bracket 19 is provided with a threaded guide groove 20, and the guide bracket 19 is in threaded connection with the inside of the guide sleeve 18 through the threaded guide groove 20 at the upper end; the monitoring mechanism comprises a real-time monitor 24, and the real-time monitor 24 is rotatably arranged at the bottom end of a guide bracket 19 arranged at an equal angle through a bearing;

As shown in fig. 7 and 9, the main driving conical ring 11 inside the monitoring disc 10 rotates, so that the main driving conical ring 11 drives the auxiliary driving conical ring 12 and the guiding sleeve 18 which are arranged in the monitoring disc 10 at equal angles to rotate, and the guiding bracket 19 connected with the guiding sleeve 18 through the threaded guiding groove 20 is limited by the monitoring disc 10, so that the guiding bracket 19 drives the real-time monitor 24 fixedly connected with the bottom end to slide outwards synchronously, the real-time monitor 24 slides out of the bottom surface of the monitoring disc 10, and the accuracy of monitoring the carbon content of the real-time monitor 24 is improved.

Example 3: in order to solve the problem of single monitoring direction of the existing real-time monitor 24, the present embodiment adopts the following technical scheme that the driving motor 23 drives the telescopic worm 21 engaged in an equal angle to synchronously rotate, and drives the driving worm wheel 25 engaged in connection to rotate at the bottom end of the guiding bracket 19, and drives the fixedly connected real-time monitor 24 to rotate, so as to adjust the monitoring angle of the real-time monitor 24, and improve the range of the real-time monitor 24 and the diversity of the monitoring direction;

The bottom end of a guide bracket 19 contained in the monitoring mechanism is arranged on the bottom surface of the monitoring disc body 10 in a sliding manner, the bottom surface of the monitoring disc body 10 is provided with telescopic worms 21 in a rotating manner at equal angles through bearings, the end parts of the adjacent telescopic worms 21 are in meshed connection with each other through a third bevel gear group 22, and the end part of the rear telescopic worm 21 is fixedly connected with the end part of an output shaft of a driving motor 23; the top ends of the real-time monitors 24 which are arranged at equal angles are fixedly provided with driving worm gears 25, and the driving worm gears 25 which are arranged at equal angles are in meshed connection with the telescopic worm 21;

The real-time monitor 24 included in the monitoring mechanism is arranged on the bottom surface of the monitoring disc body 10 in a sliding manner, the real-time monitor 24 in an initial state is positioned on the inner side of the bottom surface of the monitoring disc body 10, the real-time monitor 24 is driven to slide outwards through the ascending of the monitoring disc body 10 so as to work, and the real-time monitor 24 is driven to rotate through the meshing of the telescopic worm 21 and the driving worm wheel 25, so that the comprehensiveness of carbon content monitoring is improved;

As shown in fig. 8-9, when the monitoring angle of the real-time monitor 24 needs to be adjusted, the driving motor 23 installed at the outer end of the telescopic worm 21 drives the telescopic worm 21 to rotate, the third bevel gear group 22 drives the telescopic worm 21 in meshed connection to rotate, the rotation of the telescopic worm 21 drives the driving worm wheel 25at the bottom end of the guide bracket 19 to rotate, the real-time monitor 24 fixedly connected with the bottom end of the guide bracket is driven to adjust the direction, the using range of the real-time monitor 24 and the diversity of the monitoring direction are promoted, and then the carbon content data is transmitted to the analyzer 3, and further the carbon content data is collected and analyzed.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims (1)

1. The device comprises a bearing base (1) and a bearing upright post (2) fixedly arranged at the center of the top surface of the bearing base (1), wherein an analyzer (3) is fixedly arranged at the top end of the bearing upright post (2);

the outer wall of the bearing upright post (2) is provided with a driving mechanism in a sliding manner, and a monitoring mechanism is arranged below the driving mechanism;

Characterized by further comprising:

The lifting threaded rod (4) is rotatably arranged at the inner center position of the bearing upright post (2) through a bearing, driving rotating shafts (5) are rotatably arranged at the front side and the rear side of the inner part of the bearing upright post (2) through bearings, and guide sliding grooves (6) are formed in the front side and the rear side of the inner part of the bearing upright post (2);

The driving mechanism comprises a driving disc body (7), wherein a lifting sleeve (8) is fixedly arranged in the driving disc body (7), and transmission rotating shafts (9) are rotatably arranged on the front side and the rear side of the inside of the driving disc body (7) through bearings;

The monitoring mechanism comprises a monitoring disc body (10), wherein a main driving conical ring gear (11) is arranged in the monitoring disc body (10) through bearing rotation, and an auxiliary driving conical ring gear (12) is arranged in the monitoring disc body (10) through bearing equiangular rotation;

The bearing bases (1) and the bearing upright posts (2) are combined to form an inverted T-shaped structure, the bearing bases (1) are arranged in a distributed mode, the stability of installation of the bearing upright posts (2) is improved, and the top ends of lifting threaded rods (4) in the bearing upright posts (2) are meshed and connected with the top ends of driving rotating shafts (5) on the front side and the rear side through chain wheel mechanisms (13);

The driving mechanism comprises a driving disc body (7) which is arranged in guide sliding grooves (6) on the front side and the rear side of the inside of the bearing upright post (2) in a sliding manner, a lifting sleeve (8) inside the driving disc body (7) is in threaded connection with a lifting threaded rod (4), the inner ends of transmission rotating shafts (9) on the front side and the rear side of the inside of the driving disc body (7) are respectively connected to the outer wall of the driving rotating shaft (5) in a meshed manner through first bevel gear groups (14), and the driving rotating shaft (5) is in sliding connection with the first bevel gear groups (14) through protrusions on the front side and the rear side;

the driving mechanism comprises guide gears (15), the guide gears (15) symmetrically rotate on the front side and the rear side of the bottom surface of the driving disc body (7) through bearings, the top rotating shafts of the guide gears (15) on the front side and the rear side are connected to the outer ends of the transmission rotating shafts (9) in a meshed mode through second conical tooth groups (16), and the guide gears (15) on the front side and the rear side are rotatably arranged in the monitoring disc body (10);

The monitoring mechanism comprises a guide tooth block (17), the guide tooth block (17) is fixedly arranged on the inner wall of a main driving conical tooth ring (11) in the monitoring disc body (10) at equal angles, the guide tooth block (17) is connected with a guide gear (15) in a meshed manner, the main driving conical tooth ring (11) is connected with a secondary driving conical tooth ring (12) which is arranged in the monitoring disc body (10) at equal angles, and the rotation directions of the secondary driving conical tooth rings (12) which are arranged at equal angles are the same;

the monitoring mechanism comprises a guide sleeve (18), the guide sleeve (18) is fixedly arranged in the auxiliary driving conical ring (12) arranged at equal angles, the monitoring mechanism comprises a guide bracket (19), a threaded guide groove (20) is formed in the upper end of the guide bracket (19), and the guide bracket (19) is in threaded connection with the inside of the guide sleeve (18) through the threaded guide groove (20) in the upper end;

The bottom end of a guide bracket (19) contained in the monitoring mechanism is arranged on the bottom surface of the monitoring disc body (10) in a sliding manner, the bottom surface of the monitoring disc body (10) is provided with telescopic worms (21) through a bearing in a constant-angle rotation manner, the end parts of adjacent telescopic worms (21) are in meshed connection with each other through a third conical tooth group (22), and the end parts of the rear telescopic worms (21) are fixedly connected with the end parts of an output shaft of a driving motor (23);

the monitoring mechanism comprises a real-time monitor (24), the real-time monitor (24) is rotatably arranged at the bottom end of a guide bracket (19) which is arranged at an equal angle through a bearing, the top ends of the real-time monitor (24) which is arranged at the equal angle are fixedly provided with a driving worm wheel (25), and the driving worm wheel (25) which is arranged at the equal angle is in meshed connection with a telescopic worm (21);

The real-time monitor (24) that monitoring mechanism contained slides and sets up in the bottom surface of monitoring disk body (10), and real-time monitor (24) under the initial state is located the bottom surface inboard of monitoring disk body (10) to rise through monitoring disk body (10) and drive real-time monitor (24) outwards sideslip and slide so that work, drive real-time monitor (24) through the meshing of flexible worm (21) and drive worm wheel (25) and rotate work moreover, promote the comprehensiveness of carbon content monitoring.