CN115184552A

CN115184552A - Edge information fusion's carbon emission on-line monitoring system

Info

Publication number: CN115184552A
Application number: CN202210809063.6A
Authority: CN
Inventors: 胡健坤; 孙浩; 陈志坚; 冯国平
Original assignee: China Energy Engineering Group Guangdong Electric Power Design Institute Co Ltd
Current assignee: China Energy Engineering Group Guangdong Electric Power Design Institute Co Ltd
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-10-14
Anticipated expiration: 2042-07-11
Also published as: CN115184552B

Abstract

The invention discloses an edge information fused carbon emission online monitoring system which comprises a monitoring device, wherein a display screen is arranged on the front side of the monitoring device, a suction inlet for sucking air is formed in the top of the monitoring device, an upright post is rotatably arranged in the middle of the top end of the monitoring device, sliding grooves are formed in the outer sides of the upright post in an equidistant surrounding mode, sliding blocks are arranged in the sliding grooves in a sliding mode, the top of each sliding block is fixedly connected with the top wall of each sliding groove through a first spring, the outer sides of the sliding blocks are fixedly connected with a ring plate through connecting rods, and a pipe body is sleeved inside the ring plate. The invention can realize vibration cleaning of the pipe body while switching the pipe body, so that the phenomenon that the air inlet effect is influenced by excessive impurities in the air attached to the inner wall of the pipe body can be avoided, and the impact on the outer side of the pipe body can be realized while switching is carried out, so that vibration is generated, the vibration cleaning effect is further improved, and the pipe body vibration cleaning device is worthy of popularization and use.

Description

Edge information fusion's carbon emission on-line monitoring system

Technical Field

The invention belongs to the technical field of carbon emission online monitoring, and particularly relates to a carbon emission online monitoring system with edge information fusion.

Background

Carbon emissions are a general or short term for greenhouse gas emissions. The most predominant greenhouse gas is Carbon dioxide, and is therefore represented by the term Carbon (Carbon). Although not exact, as the fastest known method to the public, it is simply to understand "carbon emissions" as "carbon dioxide emissions".

Carbon emission can be caused by any activities of human beings, for example, carbon emission can be caused by simple cooking by common people, and carbon emission can be generated by waste gas generated by burning any object.

Edge information fusion's carbon emission on-line monitoring system is a technique of monitoring to carbon emission, current edge information fusion's carbon emission on-line monitoring system is when using, it is inside through inhaling the outside air through the body, analyze through monitoring devices, the data result that reachs carbon emission, but current edge information fusion's carbon emission on-line monitoring system uses the time, its inner wall that is used for collecting the body of air easily adheres to a large amount of impurity, impurity adheres to too much influence and collects the inhaling of air, and then influence the use of system.

Therefore, it is necessary to invent an edge information fused carbon emission online monitoring system to solve the above problems.

Disclosure of Invention

In view of the above problems, the present invention provides an edge information fused carbon emission online monitoring system to solve the above problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an edge information fuses carbon emission on-line monitoring system, includes monitoring devices, monitoring devices's front side is equipped with the display screen, monitoring devices's top is equipped with the sunction inlet of inhaled air, monitoring devices's top mid-rotation installs the stand, the outside equidistance of stand is encircleed and has been seted up the spout, slidable mounting has the slider in the spout, the top of slider is through first spring and spout roof fixed connection, connecting rod fixedly connected with crown plate is passed through in the outside of slider, the inside cover of crown plate is equipped with the body, the top of body is equipped with the seal assembly, is located in the suction inlet is embedded into to the body bottom of sunction inlet top, monitoring devices's outside fixed mounting has the dead lever, gag lever post fixed mounting is passed through at the top of dead lever post, the top fixed mounting of support plate has first motor, the output shaft of first motor passes support plate and stand fixed connection, monitoring devices's top equidistance fixed mounting has the pushing structure that is used for promoting the body to rise.

Further, the pushing structure is specifically configured as a block-shaped member with an arc surface on one side.

Further, the seal assembly includes symmetry fixed mounting at the mounting panel at body top, two rotate between the mounting panel and install the loose axle, the fixed cover in outside of loose axle is equipped with the apron, the apron matches with the body top, the outside fixed mounting of mounting panel has the second motor, the output shaft of second motor passes mounting panel and loose axle one end fixed connection.

Further, the outside equidistance of body encircles fixed mounting has many pairs of T shape poles, and is every right equal sliding sleeve is equipped with the collision board between the T shape pole, the outside cover of T shape pole is equipped with the second spring, the second spring is located the one side that the body was kept away from to the collision board, the outside fixed mounting of collision board has L shape pole, the body rotates the cover and establishes the inside at the crown plate, the outside of crown plate is equipped with the extrusion subassembly that is used for driving L shape pole to the outward movement, the outside upper portion cover of body is equipped with first torsional spring, the both ends of first torsional spring respectively with the outside fixed connection of crown plate and body, the outside of body is equipped with and is used for driving its intermittent and forward pivoted drive assembly.

Further, the extrusion subassembly includes that the equidistance encircles the company's board of fixed mounting in the crown plate outside, even the top of board is rotated and is installed the connecting axle, the bottom of connecting axle extends to even board below fixed mounting and has the arc, one side fixed mounting that the arc is close to the body has the piece of support, the outside cover of connecting axle is equipped with the second torsional spring, the both ends of second torsional spring respectively with even board and connecting axle fixed connection.

Further, the abutting part is specifically set to be a block-shaped component with an arc surface on one side close to the pipe body, and the abutting part is attached to the pipe body.

Furthermore, the driving assembly comprises first teeth arranged on the upper portion of the outer side of the pipe body in a surrounding mode, an annular frame is fixedly mounted at the top end of the fixing rod, a plurality of groups of second teeth matched with the first teeth are arranged on the inner side of the annular frame at intervals, and the number of the second teeth corresponds to the number of the pushing structures.

Furthermore, the top of the monitoring device is provided with a dropping opening between two adjacent pushing structures.

Furthermore, the opening area of the top end of the tube body is larger than that of the bottom end of the tube body.

Furthermore, the bottom fixed mounting of crown plate has first baffle, the outside fixed mounting of body have with first baffle complex second baffle.

The invention has the technical effects and advantages that:

1. the invention can realize that the pipe body can be cleaned by vibration while being switched, so that the phenomenon that the air inlet effect is influenced because impurities in the air are excessively attached to the inner wall of the pipe body can be avoided;

2. the invention can realize the impact on the outer side of the tube body while switching, so as to generate vibration and further improve the effect of vibration cleaning;

the invention can realize vibration cleaning of the pipe body while switching the pipe body, so that the phenomenon that impurities in air are attached to the inner wall of the pipe body too much to influence the air inlet effect can be avoided, impact on the outer side of the pipe body can be realized while switching is carried out, vibration is generated, the vibration cleaning effect is further improved, and the invention is worthy of popularization and use.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a first schematic diagram illustrating a first configuration of an edge information-fused carbon emission online monitoring system according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram II of an edge information fused carbon emission online monitoring system according to an embodiment of the present invention;

FIG. 5 shows a schematic structural diagram of a portion of the structure of an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of FIG. 5 at C according to an embodiment of the present invention;

in the figure: 1. a monitoring device; 2. a suction inlet; 3. a column; 4. a slider; 5. a connecting rod; 6. a ring plate; 7. a pipe body; 8. fixing the rod; 9. a limiting rod; 10. a first motor; 11. a pushing structure; 12. A cover plate; 13. a T-shaped rod; 14. a collision plate; 15. a second spring; 16. an L-shaped rod; 17. an arc-shaped plate; 18. a second torsion spring; 19. a contact member; 20. a first tooth; 21. an annular frame; 22. a second tooth; 23. a drop port; 24. a display screen; 25. a first torsion spring; 26. a first baffle plate; 27. a second baffle; 28. a second motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

The invention provides an edge information fused carbon emission online monitoring system, as shown in figures 1-6, which comprises a monitoring device 1, wherein a display screen 24 is arranged on the front side of the monitoring device 1, a suction inlet 2 for sucking air is arranged at the top of the monitoring device 1, the monitoring device 1 is the same as the equipment capable of monitoring carbon emission in the prior art, an upright post 3 is rotatably arranged in the middle of the top end of the monitoring device 1, a chute is formed in the outer side of the upright post 3 in an equidistant surrounding manner, a sliding block 4 is slidably arranged in the chute, the top of the sliding block 4 is fixedly connected with the top wall of the chute through a first spring, an annular plate 6 is fixedly connected with the outer side of the sliding block 4 through a connecting rod 5, a pipe body 7 is sleeved inside the annular plate 6, a sealing component is arranged at the top of the pipe body 7, the top of the pipe body 7 can be opened and closed through the sealing component, so that the rest pipe bodies 7 can be in a top closed state when not used, the dust and impurities are prevented from entering, the bottom end of a pipe body 7 positioned above a suction inlet 2 is embedded into the suction inlet 2, a fixing rod 8 is fixedly installed at the outer side of a monitoring device 1, a carrier plate is fixedly installed at the top of the fixing rod 8 through a limiting rod 9, a first motor 10 is fixedly installed at the top of the carrier plate, an output shaft of the first motor 10 penetrates through the carrier plate and is fixedly connected with an upright post 3, pushing structures 11 for pushing the pipe body 7 to ascend are fixedly installed at the top of the monitoring device 1 at equal intervals, when the monitoring device is used, the monitoring device 1 sucks outside air into the monitoring device through the suction inlet 2 and the pipe body 7 to analyze carbon emission, data obtained by analysis are displayed through a display screen 24, the first motor 10 can be started to enable the output shaft to rotate to drive the upright post 3 to rotate, so as to drive a sliding block 4, a connecting rod 5 and a ring plate 6 to rotate, further drive the pipe body 7 to rotate, and switch the pipe body 7, when the tube body 7 combined with the suction inlet 2 moves, the tube body 7 is extruded by the inner wall of the suction inlet 2 to move upwards to drive the annular plate 6, the connecting rod 5 and the sliding block 4 to move therewith, so that the first spring is compressed to deform the tube body to generate acting force, when the tube body 7 leaves the suction inlet 2, the first spring releases the acting force to drive the sliding block 4, the connecting rod 5 and the annular plate 6 to descend and reset, so that the tube body 7 resets, and after the tube body 7 moves to the bottom and is abutted against the pushing structure 11, the tube body can slide along the pushing structure 11 to be extruded and ascend, and in the same way, the compression deformation of the first spring can be realized, when the tube body 7 moves to be separated from the pushing structure 11, first spring release effort drives slider 4 this moment, connecting rod 5 and 6 decline of crown plate are reset, and then make body 7 reset, slider 4 and spout diapire collision produce vibrations simultaneously, thereby will adhere to impurity vibrations on body 7 inner wall and fall out through the bottom opening of body 7, and then realized the clearance to body 7 inner wall, it is too much on body 7 inner wall to avoid impurity in the air to adhere to, influence its condition of effect of admitting air to appear, body 7 after the clearance moves to the outer wall with sunction inlet 2 to support the back with the sunction inlet 2 when the clearance with the clearance, equally can rise, make and enter into sunction inlet 2 in reset and the combination of sunction inlet 2 inner wall, accomplished switching and clearance to body 7.

As shown in fig. 1, the pushing structure 11 is specifically configured as a block-shaped member with an arc surface on one side, so that the bottom of the pipe 7 slides along the arc surface of the pushing structure 11 and is extruded and ascended after moving to be in contact with the arc surface.

As shown in fig. 1-2, the sealing assembly includes mounting plates which are symmetrically and fixedly mounted at the top of the pipe body 7, a movable shaft is rotatably mounted between the two mounting plates, a cover plate 12 is sleeved on the outer portion of the movable shaft, the cover plate 12 is matched with the top of the pipe body 7, a second motor 28 is fixedly mounted on the outer side of the mounting plates, an output shaft of the second motor 28 penetrates through the mounting plates and is fixedly connected with one end of the movable shaft, the second motor 28 can be started to enable the output shaft to rotate forward to drive the movable shaft to rotate, so that the top of the pipe body 7 is opened by driving the cover plate 12 to rotate, otherwise, the output shaft of the second motor 28 can rotate reversely to enable the cover plate 12 to be closed to enable the top of the pipe body 7 to be closed.

As shown in fig. 1-3, a plurality of pairs of T-shaped rods 13 are fixedly installed around the outside of the tube 7 at equal intervals, a collision plate 14 is slidably sleeved between each pair of T-shaped rods 13, a second spring 15 is sleeved outside each pair of T-shaped rods 13, the second spring 15 is located on one side, away from the tube 7, of each pair of collision plates 14, an L-shaped rod 16 is fixedly installed on the outside of each pair of collision plates 14, the tube 7 is rotatably sleeved inside the ring 6, an extrusion assembly for driving the L-shaped rods 16 to move outwards is arranged outside the ring 6, a first torsion spring 25 is sleeved on the upper portion of the outside of the tube 7, two ends of the first torsion spring 25 are respectively and fixedly connected with the outside of the ring 6 and the tube 7, a driving assembly for driving the tube 7 to rotate forwards is arranged outside the tube 7, when the tube 7 moves along with the circumference of the column 3, the driving assembly is matched with the driving assembly to drive the tube 7 to pull the first torsion spring 25 to deform the tube to generate an acting force, meanwhile, the tube 7 moves upwards along the pushing structure 11, when the tube 7 leaves the tube 7, the tube 7 releases the pushing assembly to drive the tube 7 to compress and push the second torsion spring to move the impact assembly to drive the tube 15 to push the tube 15 to generate an impact assembly, and drive the impact assembly to move along with the impact assembly, the impurity to move, and to push the impurity to move, the impurity to lift the tube 7, and to lift the tube 7.

As shown in fig. 1, 3, 5 and 6, the extruding component includes a connecting plate fixedly mounted on the outer side of the ring plate 6 in an equidistance surrounding manner, a connecting shaft is rotatably mounted on the top of the connecting plate, an arc-shaped plate 17 is fixedly mounted on the bottom end of the connecting shaft extending to the lower side of the connecting plate, a contact piece 19 is fixedly mounted on one side of the arc-shaped plate 17 close to the pipe body 7, a second torsion spring 18 is sleeved on the outside of the connecting shaft, two ends of the second torsion spring 18 are respectively fixedly connected with the connecting plate and the connecting shaft, when the pipe body 7 rotates forwards, the T-shaped rod 13 and the collision plate 14 are driven to move therewith, so as to drive the L-shaped rod 16 to move therewith, after the L-shaped rod 16 moves to contact with the arc-shaped plate 17, the arc-shaped plate 17 is driven to pull the second torsion spring 18 along with the connecting shaft to deform to generate acting force, move to separating with arc 17 when L shape pole 16, second torsional spring 18 release effort drives connecting axle and arc 17 and resets, when the body 7 reversal, drive L shape pole 16 with the same reason and move thereupon, L shape pole 16 moves to contradicting with arc 17, make arc 17 unable reversal owing to the existence of piece 19 of propping this moment, make to extrude L shape pole 16 and make its outwards movement, and then 14 outside movements of pulling collision plate compression second spring 15 make its deformation produce the effort, separate when L shape pole 16 and arc 17, second spring 15 release effort drives collision plate 14 and resets and collide the outside of body 7 and produce vibrations this moment.

As shown in fig. 5-6, conflict piece 19 specifically sets up to be provided with the massive component of arc surface for the one side that is close to body 7, and conflict piece 19 laminates with body 7, and conflict piece 19 fixed connection is in the one side that body 7 is close to arc 17, and when arc 17 will overturn, conflict piece 19 contradicts with the body 7 outside for the unable reversal of arc 17, the realization is spacing to it, makes the unable reversal of arc 17 corotation.

As shown in fig. 1 and 4, the driving assembly includes a first tooth 20 disposed around the upper portion of the outer side of the tube 7, an annular frame 21 is fixedly mounted at the top end of the fixing rod 8, a plurality of sets of second teeth 22 matched with the first tooth 20 are disposed at intervals inside the annular frame 21, the width of the second teeth 22 is greater than that of the first teeth 20, when the first teeth 20 are engaged with the second teeth 22 and ascend, the first teeth 20 and the second teeth 22 can be kept in an engaged state, the number of the sets of the second teeth 22 corresponds to the number of the pushing structures 11, when the tube 7 moves along with the column 3, the first teeth 20 and the second teeth 22 at the outer side are engaged to drive the tube 7 to rotate forward, and simultaneously pull the first torsion spring 25 to deform the tube to generate an acting force, and when the first teeth 20 are separated from the second teeth 22, the first torsion spring 25 releases the acting force to drive the tube 7 to rotate backward.

As shown in fig. 1, a dropping opening 23 is formed in the top of the monitoring device 1 and between two adjacent pushing structures 11, so that the dropped impurities passing through the bottom of the pipe body 7 can drop out along the dropping opening 23, and the impurities are guided to leave the surface of the monitoring device 1.

As shown in fig. 5, the opening area of the top end of the tube 7 is larger than the opening area of the bottom end thereof, so that the bottom of the tube 7 has a radian, and can be extruded and lifted when being abutted against the inner wall or the outer side of the suction port 2, and can be more compact when being combined with the suction port 2.

As shown in fig. 5, the bottom of the ring plate 6 is fixedly provided with a first baffle 26, the outer side of the tube body 7 is fixedly provided with a second baffle 27 matched with the first baffle 26, the tube body 7 rotates forward to drive the second baffle 27 to rotate, so that the second baffle 27 is separated from the first baffle 26, the tube body 7 is driven to move in a reverse rotation manner to collide with the first baffle 26 to stop rotating the tube body 7, the first torsion spring 25 is prevented from being pulled reversely, and the protection is performed on the tube body 7.

The working principle is as follows: when the device is used, the monitoring device 1 sucks external air into the device through the suction port 2 and the tube body 7 to analyze carbon emission, data obtained by analysis is displayed through the display screen 24, the first motor 10 can be started to enable the output shaft of the first motor to rotate to drive the upright post 3 to rotate, so that the sliding block 4, the connecting rod 5 and the ring plate 6 are driven to rotate through the sliding chute, the tube body 7 is driven to rotate, switching of the tube body 7 is performed, when the tube body 7 combined with the suction port 2 moves, the tube body 7 is extruded by the inner wall of the suction port 2 to move upwards to drive the ring plate 6, the connecting rod 5 and the sliding block 4 move along with the ring plate, the first spring is compressed to deform the tube body to generate acting force, when the tube body 7 leaves the suction port 2, the first spring releases acting force to drive the sliding block 4, the connecting rod 5 and the ring plate 6 to descend and reset, the tube body 7 is reset, after the tube body 7 moves to the bottom and is abutted against the pushing structure 11, the tube body slides along the pushing structure 11 to rise, in the same way, the compression deformation of the first spring can be realized, when the tube body 7 moves to be separated from the pushing structure 11, the first spring releases acting force to drive the sliding block 4, the connecting rod 5 and the annular plate 6 to descend and reset, so that the tube body 7 resets, and simultaneously the sliding block 4 collides with the bottom wall of the chute to generate vibration, so that impurities attached to the inner wall of the tube body 7 are shaken off and fall out through the bottom opening of the tube body 7, thereby realizing the cleaning of the inner wall of the tube body 7, avoiding the situation that the impurities in the air are excessively attached to the inner wall of the tube body 7 to influence the air inlet effect of the tube body, in the same way, after the cleaned tube body 7 moves to be abutted against the outer wall of the suction inlet 2, the tube body also rises to enter the suction inlet 2 to reset and be combined with the inner wall of the suction inlet 2, the switching and cleaning of the tube body 7 are finished, the second motor 28 can be started to drive the output shaft to rotate in a positive rotation manner, thereby driving the cover plate 12 to rotate and open the top of the pipe body 7 so as to open the pipe body 7 to be used, otherwise, the output shaft of the second motor 28 can rotate reversely to close the cover plate 12 so as to close the top of the pipe body 7, so as to close the pipe body 7 which is not used, and avoid impurities from entering, when the pipe body 7 moves along with the column 3 circularly, the first teeth 20 and the second teeth 22 on the outer side of the pipe body are meshed to drive the pipe body 7 to rotate forwards, simultaneously, the first torsion spring 25 is pulled to deform the pipe body to generate an acting force, meanwhile, the pipe body 7 moves upwards along the pushing structure 11, when the pipe body 7 rotates forwards, the T-shaped rod 13 and the collision plate 14 are driven to move along with the pipe body, thereby the L-shaped rod 16 is driven to move along with the pipe body, after the L-shaped rod 16 moves to be abutted against the arc-shaped plate 17, the arc-shaped plate 17 is driven to pull the second torsion spring 18 along with the connecting shaft to deform the arc-shaped plate 18 to generate an acting force, when the L-shaped rod 16 moves to be separated from the arc-shaped plate 17, second torsional spring 18 releases the effort and drives connecting axle and arc 17 and reset, after body 7 left pushing structure 11, first tooth 20 and second tooth 22 separation, first torsional spring 25 releases the effort and drives body 7 reversal this moment, when body 7 reverses, drive L shape pole 16 with the same reason and move thereupon, L shape pole 16 moves to contradict with arc 17, make arc 17 unable reversal owing to the existence of contact 19 this moment, make L shape pole 16 extrude and make its outwards movement, and then the outside motion compression second spring 15 of pulling impact plate 14 makes its deformation produce the effort, when L shape pole 16 and arc 17 separation, second spring 15 releases the effort and drives impact plate 14 and resets and collide the outside of body 7 and produce vibrations this moment, can shake the adnexed impurity of body 7 inner wall and fall, promote the clearance effect to impurity.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an edge information fuses carbon emission on-line monitoring system, includes monitoring devices (1), its characterized in that: the front side of monitoring devices (1) is equipped with display screen (24), the top of monitoring devices (1) is equipped with inspiratory air's sunction inlet (2), the top middle part of monitoring devices (1) rotates and installs stand (3), the outside equidistance of stand (3) is encircleed and has been seted up the spout, slidable mounting has slider (4) in the spout, the top of slider (4) is through first spring and spout roof fixed connection, connecting rod (5) fixedly connected with crown plate (6) are passed through in the outside of slider (4), the inside cover of crown plate (6) is equipped with body (7), the top of body (7) is equipped with the seal assembly, is located body (7) bottom of sunction inlet (2) top is embedded into sunction inlet (2), the outside fixed mounting of monitoring devices (1) has dead lever (8), the top of dead lever (8) is passed through gag lever (9) fixed mounting has the support plate, the top fixed mounting of support plate has first motor (10), the output shaft and stand (3) fixed connection of first motor (10), the top fixed mounting of monitoring devices (1) has top (7) to be used for the equidistance to promote body (11) to promote.

2. The system of claim 1, wherein the system comprises: the pushing structure (11) is specifically arranged to be a block-shaped component with a cambered surface arranged on one side.

3. The system of claim 1, wherein the system comprises: the seal assembly includes symmetry fixed mounting at the mounting panel at body (7) top, two rotate between the mounting panel and install the loose axle, the outside fixed cover of loose axle is equipped with apron (12), apron (12) and body (7) top match, the outside fixed mounting of mounting panel has second motor (28), the output shaft of second motor (28) passes mounting panel and loose axle one end fixed connection.

4. The system of claim 1, wherein the system comprises: the outside equidistance of body (7) encircles fixed mounting has many pairs of T shape pole (13), and is every right equal sliding sleeve is equipped with collision plate (14) between T shape pole (13), the outside cover of T shape pole (13) is equipped with second spring (15), second spring (15) are located one side that body (7) were kept away from in collision plate (14), the outside fixed mounting of collision plate (14) has L shape pole (16), body (7) rotate the cover and establish the inside at crown plate (6), the outside of crown plate (6) is equipped with the extrusion subassembly that is used for driving L shape pole (16) outside motion, the outside upper portion cover of body (7) is equipped with first torsion spring (25), the both ends of first torsion spring (25) respectively with the outside fixed connection of crown plate (6) and body (7), the outside of body (7) is equipped with and is used for driving its intermittent rotation's drive assembly.

5. The system for on-line monitoring of carbon emission fused with edge information as claimed in claim 4, wherein: the extrusion subassembly includes that the equidistance encircles the company's board in the crown plate (6) outside, the top of company's board is rotated and is installed the connecting axle, the bottom of connecting axle extends to even board below fixed mounting and has arc (17), one side fixed mounting that arc (17) are close to body (7) has piece (19) of support, the outside cover of connecting axle is equipped with second torsional spring (18), the both ends of second torsional spring (18) respectively with even board and connecting axle fixed connection.

6. The system of claim 5, wherein the system comprises: the contact piece (19) is specifically set to be a block-shaped component with an arc surface on one side close to the pipe body (7), and the contact piece (19) is attached to the pipe body (7).

7. The system of claim 4, wherein the system comprises: drive assembly is including encircleing first tooth (20) that sets up on body (7) outside upper portion, the top fixed mounting of dead lever (8) has annular frame (21), the inboard interval of annular frame (21) is provided with multiunit and first tooth (20) matched with second tooth (22), the group number of second tooth (22) corresponds with promotion structure (11) number.

8. The system of claim 1, wherein the system comprises: a dropping opening (23) is formed in the top of the monitoring device (1) and located between the two adjacent pushing structures (11).

9. The system of claim 1, wherein the system comprises: the opening area of the top end of the pipe body (7) is larger than that of the bottom end of the pipe body.

10. The system of claim 1, wherein the system comprises: the bottom fixed mounting of crown plate (6) has first baffle (26), the outside fixed mounting of body (7) has second baffle (27) with first baffle (26) complex.