CN116953176B

CN116953176B - Electric power energy carbon emission metering equipment and method

Info

Publication number: CN116953176B
Application number: CN202311211775.9A
Authority: CN
Inventors: 罗金满; 王凯亮; 黄学劲; 叶思琪; 封祐钧; 赵善龙; 温兆聪; 晏晶; 李晓霞; 陈浩玮; 林浩钊; 谭雄华
Original assignee: Dongguan Power Supply Bureau of Guangdong Power Grid Co Ltd
Current assignee: Dongguan Power Supply Bureau of Guangdong Power Grid Co Ltd
Priority date: 2023-09-20
Filing date: 2023-09-20
Publication date: 2024-01-09
Anticipated expiration: 2043-09-20
Also published as: CN116953176A

Abstract

The invention relates to the technical field of carbon emission metering and discloses electric energy carbon emission metering equipment and a method, wherein the equipment comprises a box body, an air inlet pipeline is arranged at the top of the box body, a cylinder body is rotatably arranged between inner walls of two sides of the box body, openings are formed in the outer side of the cylinder body in an equidistance and encircling mode, a rotating shaft is rotatably arranged in the openings, and torsion springs are sleeved at two ends of the rotating shaft. According to the invention, the filter screen can be cleaned, and the cleaning agent can be uniformly sprayed on the filter screen while cleaning, so that part of impurities can be dissolved, the part of impurities can be more easily separated from the filter screen, and then the filter screen is matched with continuous vibration of the filter screen, so that the impurities are separated from the filter screen, the filter screen can be cleaned well, and the air inlet pipeline can be lifted while the filter screen is cleaned in a switching manner, so that the impurities on the surface of the filter screen can not be scraped off and can not be left at the bottom of the air inlet pipeline when the filter screen rotates, and the influence on the clean filter screen to be switched is avoided.

Description

Electric power energy carbon emission metering equipment and method

Technical Field

The invention relates to the technical field of carbon emission metering, in particular to electric energy carbon emission metering equipment and method.

Background

In the production process of new electric energy, waste gas can be discharged, more carbon dioxide is contained in the discharged waste gas, the carbon dioxide content in the waste gas needs to be measured, metering equipment is needed in the process, when the existing metering equipment is used, a filter screen is generally arranged for carrying out the impurity process in order to avoid impurities entering the metering equipment, but the filter screen can be blocked along with the use of the filter screen, and the introduction of the whole waste gas is influenced.

Therefore, it is necessary to invent an electric power energy carbon emission measuring apparatus and method to solve the above problems.

Disclosure of Invention

The embodiment of the invention discloses an electric power energy carbon emission metering device and an electric power energy carbon emission metering method, which are used for solving the problems in the background technology.

The embodiment of the invention provides electric power energy carbon emission metering equipment, which comprises a box body, wherein an air inlet pipeline is arranged at the top of the box body, a cylinder body is rotatably arranged between inner walls at two sides of the box body, an opening is formed by equidistant surrounding of the outer side of the cylinder body, a rotating shaft is rotatably arranged in the opening, torsion springs are respectively sleeved at two ends of the rotating shaft, two ends of the torsion springs are respectively fixedly connected with the rotating shaft and the inner walls of the opening, an arc-shaped plate matched with the opening is fixedly sleeved at the outer part of the rotating shaft, an installation opening is formed in the middle of the arc-shaped plate, a filter screen is fixedly connected in the installation opening, an air outlet pipeline is fixedly connected with the inner wall of the box body and is positioned in the cylinder body, a meter is arranged in the inner wall of the installation frame at equal distance, a driving component for driving the air outlet pipeline to rotate is arranged on the cylinder body, arc-shaped frames are fixedly connected with the inner walls at two sides of the box body, a dissolving component for dissolving impurities on a filter screen at equal distance is arranged between the arc-shaped frames, a lug is arranged at one side of the arc-shaped frame close to the cylinder body, a discharge pipe is positioned at the bottom of the box body and is positioned below the arc-shaped plate, and a discharge pipe is positioned at the bottom of the box body.

Further, dissolve the extrusion case of subassembly including fixed connection between a pair of arc frame, the extrusion case sets up to the arc, the inside of extrusion case is equipped with the piston, the top of piston is through arc pole fixedly connected with briquetting, the outside cover of arc pole is equipped with first spring, the top symmetry fixedly connected with support frame of briquetting, two rotate between the support frame and install the spray tube, the outside equidistance of spray tube is equipped with the orifice, the bottom of extrusion case is through hose and spray tube intercommunication, be used for driving its pivoted rotating assembly outward of spray tube, two fixedly connected with storage box between the arc frame, the inside packing of storage box has the detergent, communicate through the straw between the bottom of extrusion case and the storage box, all be equipped with the check valve in straw and the orifice, the outside of storage box is equipped with the liquid feeding pipe with external intercommunication.

Further, the rotating assembly comprises gears fixedly sleeved on two sides of the spray pipe, and racks matched with the gears are fixedly connected to the outer sides of the arc-shaped frames.

Further, the top symmetry slidable mounting of box has T shape pole, the bottom of T shape pole extends to fixedly connected with even board in the box, even board and air intake duct fixed connection, air intake duct slides and sets up on the box, the outside cover of T shape pole is equipped with the second spring, the outside equidistance of barrel is encircleed and is equipped with the drive piece that is used for driving even board to rise.

Further, the driving block is specifically configured as an arc-shaped plate-shaped member with an inclined plane at one side, and the driving block is fixedly connected with the cylinder.

Further, a rubber ring is arranged at the bottom of the air inlet pipeline.

Further, the drive assembly includes the motor of fixed connection in the box outside, the output shaft of motor extends to fixedly connected with drive gear in the box, the inner wall equidistance of barrel encircle be equipped with drive gear complex tooth, one side of keeping away from the pivot in the opening is equipped with pressure sensor, pressure sensor contradicts with the cambered surface board.

The embodiment of the invention provides a metering method for carbon emission of electric power energy, which comprises the following steps:

s1, when the device is used, an external discharge pipeline is connected with an air inlet pipeline, an air outlet pipeline is connected with an external air extractor, waste gas led into a box body through the air extractor is extracted, the waste gas enters the air outlet pipeline after impurities are filtered by a filter screen, and then the waste gas is extracted to the outside, when the waste gas passes through a meter, the meter measures carbon emission and then the carbon emission is transmitted to the background;

s2, along with continuous accumulation of impurities on the filter screen, the filter screen is pressed down, when the impurities are accumulated excessively, the driving assembly drives the cylinder to rotate, so that the rotating shaft, the cambered surface plate and the filter screen are driven to rotate, the filter screen for accumulating the impurities is switched with a clean filter screen, when the cambered surface plate with the clean filter screen moves to be in contact with the air inlet pipeline, the rotating shaft is driven to rotate and pull the torsion spring to enable the torsion spring to twist and deform, and when the cambered surface plate with the filter screen for accumulating the impurities leaves the air inlet pipeline, the deformed torsion spring releases acting force to drive the rotating shaft and the cambered surface plate to rotate until the filter screen leaves an opening, and after the switching, the driving assembly stops driving;

s3, when the replaced filter screen is excessively stacked with impurities, the driving assembly drives the cylinder to rotate, the filter screen which is replaced before and stacked with impurities can be matched with the dissolving assembly to dissolve impurities on the surface of the filter screen, then the filter screen is abutted against the convex block along with the movement of the arc panel, the arc panel drives the rotating shaft to rotate, the torsion spring is twisted to deform to generate acting force, when the arc panel is separated from the convex block, the deformed torsion spring releases the acting force to drive the rotating shaft and the arc panel to reset rapidly, the arc panel impacts the inner wall of the opening, so that vibration is generated, and the dissolved impurities are vibrated off the filter screen;

s4, along with the continuous conflict separation with the lug of arc panel for the filter screen constantly shakes, makes the eventually impurity shake the whereabouts, realizes the clearance to the filter screen, shakes the impurity that falls and drops in the discharge pipe of below, falls on the closure board, can pull open the closure board and clear up inside impurity and go out.

From the above technical solutions, the embodiment of the present invention has the following advantages:

in this embodiment, the technical effects and advantages of the present invention are:

1. the invention can clean the filter screen, and can spray the cleaning agent uniformly to the filter screen while cleaning, so that part of impurities can be dissolved, the part of impurities can be separated from the filter screen more easily, and then the impurities are separated from the filter screen by matching with continuous vibration of the filter screen, thereby realizing good cleaning of the filter screen;

2. according to the invention, the air inlet pipeline can be lifted while the filter screen is switched and cleaned, so that impurities on the surface of the filter screen can not be scraped off and can not be left at the bottom of the air inlet pipeline when the filter screen rotates, and the influence on the clean filter screen to be switched is avoided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 shows a schematic structural view of an electric energy carbon emission metering device according to an embodiment of the present invention;

FIG. 2 is a schematic diagram showing a cross-sectional structure of an electric power source carbon emission measuring apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view showing a part of the structure of the embodiment of the present invention;

FIG. 4 shows a second schematic structural view of a part of the structure of an embodiment of the present invention;

in the figure: 1. a case; 2. an air intake duct; 3. a cylinder; 4. a rotating shaft; 5. an arc panel; 6. a filter screen; 7. a mounting frame; 8. a gauge; 9. an air outlet pipe; 10. an arc-shaped frame; 11. a bump; 12. an extrusion box; 13. an arc-shaped rod; 14. briquetting; 15. a support frame; 16. a spray pipe; 17. a hose; 18. a storage box; 19. a suction pipe; 20. a gear; 21. a rack; 22. a T-bar; 23. a connecting plate; 24. a driving block; 25. a motor; 26. a drive gear; 27. teeth; 28. a pressure sensor; 29. a closing plate; 30. a liquid adding tube.

Detailed Description

In order to better understand the aspects of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It will be apparent that the described embodiments 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.

The embodiment of the invention provides electric energy carbon emission metering equipment, as shown in fig. 1-4, the electric energy carbon emission metering equipment comprises a box body 1, wherein an air inlet pipeline 2 is arranged at the top of the box body 1, a cylinder 3 is rotatably arranged between the inner walls of two sides of the box body 1, an opening is formed in the outer side of the cylinder 3 in an equidistant surrounding mode, a rotating shaft 4 is rotatably arranged in the opening, torsion springs are sleeved at two ends of the rotating shaft 4, two ends of the torsion springs are fixedly connected with the rotating shaft 4 and the inner wall of the opening respectively, an arc-shaped plate 5 matched with the opening is fixedly sleeved outside the rotating shaft 4, a mounting opening is formed in the middle of the arc-shaped plate 5, a filter screen 6 is fixedly connected in the mounting opening, a meter 8 is fixedly connected in the box body 1 and is fixedly connected with the mounting frame 7 in the inside of the cylinder 3, the meter 8 is metering equipment for metering carbon emission in the prior art, the meter 8 can transmit the metered carbon emission to the background, workers are helped to know the carbon emission, an air outlet pipeline 9 is fixedly connected with one side inner wall of the box body 1, the two air outlet pipeline 9 is positioned under the mounting frame 7, a driving assembly for driving the rotating the cylinder 3 is fixedly sleeved on the cylinder, an arc-shaped projection 10 is arranged on the cylinder 3, two arc-shaped brackets 10 are fixedly connected with the two arc-shaped filter screens 10 are arranged on the inner walls of the box body 1, the arc-shaped assembly is positioned at the bottom of the arc-shaped assembly 10, the arc-shaped assembly is close to the arc-shaped assembly is arranged at the bottom of the arc-shaped assembly 10, and the arc-shaped assembly is positioned at the bottom of the arc-shaped assembly 10 is provided with an arc-shaped filter tube 10, and the two bottom is at the bottom part is at the bottom between the arc-shaped frame 10 and is provided with an arc-shaped filter frame 10 and is provided with an arc-shaped device and an electric device.

During the use, be connected external exhaust pipe and admission line 2, be connected with the air exhauster of air outlet pipe 9 with the external, will draw through the air exhauster and will lead into the waste gas in box 1 through admission line 2, waste gas filters impurity through filter screen 6 and gets into in the air outlet pipe 9, then be taken out to the external, when waste gas passes through counter 8, counter 8 measures the carbon emission volume, then transfer to the backstage, along with the constantly pile up of impurity on filter screen 6 for can press filter screen 6 to descend, when impurity pile up too much, the actuating assembly drive barrel 3 rotates, make the filter screen 6 that drives pivot 4, cambered surface board 5 and filter screen 6 rotate, make filter screen 6 that piles up impurity and clean filter screen 6 switch over, when the cambered surface board 5 that has clean filter screen 6 moves to contradict with admission line 2, can receive the extrusion and make the pivot 4 rotate and tear torsional deformation, when cambered surface board 5 that has pile up impurity filter screen 6 leaves admission line 2, the release effort that deformation drives pivot 4, cambered surface board 5 rotates to filter screen 6 and leaves the opening, accomplish and drive assembly and stop driving assembly and make the filter screen 5 rotate, make the lug 11 and change the lug, make the rotary surface of rotary surface 11 and the lug and make the rotary surface take over the rotary surface 11 and make the rotary surface take place along with the moment and change the lug, the rotary surface board and make the rotary surface 11 take the rotary surface 11 and make the rotary surface 11 take the impact with the lug and take the lug, the rotary surface 11 and make the rotary surface 11 and make the rotary surface and the lug after the rotary surface 5 take down, the utility model discloses a filter screen, including arc panel 5, lug 11, filter screen 6, the impurity that will dissolve is shaken off from filter screen 6 for produce vibrations, shake off along with arc panel 5 continuous with the conflict separation of lug 11 for filter screen 6 constantly shakes, makes the impurity shake off eventually, realizes the clearance to filter screen 6, shakes off impurity and drops in the discharge pipe of below, falls on closure plate 29, can pull open closure plate 29 and clear away inside impurity.

As shown in fig. 2 to 4, the dissolution component comprises an extrusion box 12 fixedly connected between a pair of arc frames 10, the extrusion box 12 is arranged into an arc shape, a piston is arranged in the extrusion box 12, the top of the piston is fixedly connected with a pressing block 14 through an arc rod 13, a first spring is sleeved outside the arc rod 13, the top of the pressing block 14 is symmetrically and fixedly connected with a supporting frame 15, a spray pipe 16 is rotatably arranged between the two supporting frames 15, spray pipes 16 are equidistantly arranged outside the spray pipes 16, the bottom of the extrusion box 12 is communicated with the spray pipes 16 through a hose 17, a rotating component for driving the spray pipes 16 to rotate is arranged outside the spray pipes 16, a storage box 18 is fixedly connected between the two arc frames 10, a cleaning agent is filled in the storage box 18, the bottom of the extrusion box 12 is communicated with the storage box 18 through a suction pipe 19, one-way valves are arranged in the suction pipe 19 and the spray pipes, a liquid adding pipe 30 communicated with the outside is arranged outside the storage box 18, and the stiffness coefficient of the torsion spring is larger than that of the first spring.

After the arc panel 5 rotates along with the cylinder 3 to be in conflict with the pressing block 14, the acting force of the torsion spring enables the arc panel 5 to keep the original state, the pressing block 14 is pressed by the arc panel 5 to drive the arc rod 13 and the piston to descend, meanwhile, the first spring is compressed to deform to generate acting force, the cleaning agent in the extrusion box 12 is extruded outwards along with the movement of the piston, at the moment, the one-way valve in the suction pipe 19 is closed, the cleaning agent enters the spray pipe 16 through the hose 17 to be sprayed out by the one-way valve in the ejection hole, so that the cleaning agent is ejected to the filter screen 6, meanwhile, the spray pipe 16 is driven to rotate by the cooperation of the rotating assembly, so that the spray hole continuously rotates downwards, the position of the ejected cleaning agent can be changed, and the cleaning agent can be uniformly ejected on the surface of the whole filter screen 6, when the pressing block 14 cannot move, the rotating shaft 4 is driven to rotate along with the descending of the arc panel 5 to generate an acting force by deflecting to pull the torsion spring to deform, so that the arc panel 5 is separated from the pressing block 14, after the arc panel 5 is separated from the pressing block 14, the first spring releases the acting force to drive the pressing block 14 to reset, the piston is reset, when the piston ascends and resets, the cleaning agent in the storage box 18 is sucked into the extrusion box 12, the one-way valve in the suction pipe 19 is opened, the one-way valve in the spray hole is closed, and the cleaning agent in the storage box 18 is continuously sucked into the extrusion box 12 to be supplemented along with the ascending of the piston, and after the arc panel 5 is separated from the pressing block 14, the torsion spring releases the acting force to drive the rotating shaft 4 and the arc panel 5 to rotate and reset.

As shown in fig. 3 to 4, the rotating assembly includes gears 20 fixedly sleeved on both sides of the nozzle 16, and racks 21 matched with the gears 20 are fixedly connected to the outer side of the arc-shaped frame 10.

When the pressing block 14 descends, the supporting frame 15 and the spray pipe 16 are driven to descend, and meanwhile the gear 20 descends to be matched with the rack 21 to rotate, so that the spray pipe 16 is driven to rotate downwards, and then the spray hole is driven to rotate to change the direction of spraying the cleaning agent, and the cleaning agent can be uniformly sprayed on the whole filter screen 6.

As shown in fig. 4, the top of the box 1 is symmetrically and slidably provided with a T-shaped rod 22, the bottom of the T-shaped rod 22 extends to the inside of the box 1 to be fixedly connected with a connecting plate 23, the connecting plate 23 is fixedly connected with an air inlet pipeline 2, the air inlet pipeline 2 is slidably arranged on the box 1, a second spring is sleeved outside the T-shaped rod 22, and a driving block 24 for driving the connecting plate 23 to ascend is equidistantly and circumferentially arranged outside the cylinder 3.

The cylinder 3 rotates to drive the driving block 24 to rotate so as to push the connecting plate 23 upwards, thereby driving the T-shaped rod 22 and the air inlet pipeline 2 to move along with the driving block to compress the second spring so as to deform the second spring to generate acting force, and then in the rotating process of the cylinder 3, the driving block 24 supports the connecting plate 23 and the air inlet pipeline 2, so that the bottom of the air inlet pipeline 2 is not contacted with the filter screen 6, impurities on the surface of the filter screen 6 can not be scraped off and can not remain at the bottom of the air inlet pipeline 2 when the filter screen 6 rotates, the influence on the clean filter screen 6 to be switched is avoided, when the driving block 24 is separated from the connecting plate 23, the clean filter screen 6 is positioned below the air inlet pipeline 2, and the second spring drives the connecting plate 23 and the air inlet pipeline 2 to reset so as to press the filter screen 6 to completely enter an opening.

As shown in fig. 3, the driving block 24 is specifically configured as an arc-shaped plate-shaped member with an inclined surface on one side, and the driving block 24 is fixedly connected with the cylinder 3.

The driving block 24 can press the connecting plate 23 to rise in a matching slope when rotating.

As shown in fig. 3, the bottom of the air intake duct 2 is provided with a rubber ring.

So that the degree of fit of the contact surface of the air inlet pipe 2 and the filter screen 6 can be improved, and the exhaust gas can be better led in to pass through the filter screen 6.

As shown in fig. 2 to 4, the driving assembly comprises a motor 25 fixedly connected to the outer side of the box body 1, an output shaft of the motor 25 extends to the inner side of the box body 1 and is fixedly connected with a driving gear 26, teeth 27 matched with the driving gear 26 are arranged on the inner wall of the cylinder body 3 in an equidistant surrounding manner, a pressure sensor 28 is arranged on one side, far away from the rotating shaft 4, in the opening, and the pressure sensor 28 is in contact with the cambered surface plate 5.

When the impurity on the filter screen 6 is excessively accumulated, the filter screen 6 is driven to rotate downwards to press the pressure sensor 28, and when the pressure exceeds the preset value of the pressure sensor 28, the pressure sensor 28 controls the motor 25 to start so that the output shaft of the motor drives the driving gear 26 to rotate, thereby the matching teeth 27 drive the cylinder 3 to rotate, and when the next filter screen 6 is positioned below the air inlet pipeline 2, the motor 25 stops operating.

A method of metering using the electrical energy carbon emission metering device as described above, comprising the steps of:

s1, when the device is used, an external discharge pipeline is connected with an air inlet pipeline 2, an air outlet pipeline 9 is connected with an external air extractor, waste gas led into a box body 1 through the air inlet pipeline 2 is extracted through the air extractor, the waste gas enters the air outlet pipeline 9 after impurities are filtered by a filter screen 6 and is then extracted to the outside, when the waste gas passes through a counter 8, the counter 8 measures carbon emission and then transmits the carbon emission to the background;

s2, along with the continuous accumulation of impurities on the filter screen 6, the filter screen 6 is pressed to descend, when the impurities are accumulated excessively, the driving assembly drives the cylinder 3 to rotate, so that the rotating shaft 4, the cambered surface plate 5 and the filter screen 6 are driven to rotate, the filter screen 6 for accumulating the impurities is switched with the clean filter screen 6, when the cambered surface plate 5 with the clean filter screen 6 moves to be in contact with the air inlet pipeline 2, the rotating shaft 4 is driven to rotate and pull the torsion spring to enable the torsion spring to deform by extrusion, and when the cambered surface plate 5 with the filter screen 6 for accumulating the impurities leaves the air inlet pipeline 2, the deformed torsion spring releases acting force to drive the rotating shaft 4 and the cambered surface plate 5 to rotate until the filter screen 6 leaves an opening, and after the switching is finished, the driving assembly stops driving;

s3, when the replaced filter screen 6 is excessively stacked, the driving assembly drives the cylinder body 3 to rotate, the filter screen 6 which is replaced before and stacked with impurities can be matched with the dissolving assembly to dissolve impurities on the surface of the filter screen, then the filter screen 6 is abutted against the convex block 11 along with the movement of the arc panel 5, after the arc panel 5 is abutted against the convex block 11, the arc panel 5 drives the rotating shaft 4 to rotate along with the movement of the filter screen, the torsion spring is enabled to twist and deform to generate acting force, when the arc panel 5 is separated from the convex block 11, the deformed torsion spring releases the acting force to drive the rotating shaft 4 and the arc panel 5 to reset rapidly, the arc panel 5 is enabled to impact the inner wall of an opening, vibration is generated, and the dissolved impurities are vibrated from the filter screen 6;

s4, along with the continuous conflict separation with lug 11 of arc panel 5 for filter screen 6 constantly shakes, makes the impurity shake the fall, realizes the clearance to filter screen 6, shakes the impurity that falls and drops in the discharge pipe of below, falls on closure plate 29, can pull open closure plate 29 and clear up the impurity of inside.

Working principle: when in use, an external waste gas discharge pipeline is connected with an air inlet pipeline 2, an air outlet pipeline 9 is connected with an external air extractor, waste gas led into a box body 1 through the air inlet pipeline 2 is extracted through the air extractor, the waste gas enters the air outlet pipeline 9 after impurities are filtered by a filter screen 6 and is then extracted to the outside, when the waste gas passes through a counter 8, the counter 8 measures carbon emission and then transmits the carbon emission to the background, the filter screen 6 is pressed down along with continuous accumulation of impurities on the filter screen 6, when the impurities are excessively accumulated, the filter screen 6 is driven to rotate downwards to press a pressure sensor 28, when the pressure exceeds a preset value of the pressure sensor 28, the pressure sensor 28 controls an output shaft of a motor 25 to drive a driving gear 26 to rotate, thereby matching teeth 27 to drive a cylinder 3 to rotate, when the filter screen 6 is rotated to the next below the air inlet pipeline 2, at this time, the motor 25 stops operating, the cylinder 3 rotates, so as to drive the rotating shaft 4, the cambered surface plate 5 and the filter screen 6 to rotate, the filter screen 6 for accumulating impurities is switched with the clean filter screen 6, the cylinder 3 rotates to drive the driving block 24 to rotate so as to push the connecting plate 23 upwards, thereby driving the T-shaped rod 22 and the air inlet pipeline 2 to move along with the driving block to compress the second spring so as to deform the second spring to generate acting force, then in the rotating process of the cylinder 3, the bottom of the air inlet pipeline 2 is not contacted with the filter screen 6 due to the supporting of the driving block 24 on the connecting plate 23 and the air inlet pipeline 2, so that the impurities on the surface of the filter screen 6 cannot be scraped and cannot be left at the bottom of the air inlet pipeline 2 when the filter screen 6 rotates, the influence on the clean filter screen 6 to be switched is avoided, when the driving block 24 is separated from the connecting plate 23, and the clean filter screen 6 is positioned below the air inlet pipeline 2, the second spring drives the connecting plate 23 and the air inlet pipeline 2 to reset so as to press the filter screen 6 to completely enter the opening, and similarly, when the replaced filter screen 6 is excessively stacked, the cylinder 3 is continuously driven to rotate at the moment so that the filter screen 6 which is replaced before and stacked with the impurity moves along with the filter screen, the cambered surface plate 5 provided with the filter screen 6 which is replaced before and stacked with the impurity rotates along with the cylinder 3 until the cambered surface plate is in contact with the pressing block 14, the acting force of the torsion spring enables the cambered surface plate 5 to keep the original state, the cambered surface plate 5 presses the pressing block 14 so as to drive the cambered rod 13 and the piston to descend, the first spring is compressed so as to deform the first spring to generate the acting force, the cleaning agent in the extrusion box 12 is extruded outwards along with the movement of the piston, at the moment, the one-way valve in the suction pipe 19 is closed, the cleaning agent enters into the spray pipe 16 through the hose 17 to be ejected out of the one-way valve in the ejection hole, and the supporting frame 15 and the spray pipe 16 are driven to descend when the pressing block 14 descends, simultaneously, the gear 20 descends to match with the rack 21 to rotate, thereby driving the spray pipe 16 to rotate downwards, and further driving the spray hole to rotate to change the direction of spraying the cleaning agent, so that the cleaning agent can be uniformly sprayed on the whole filter screen 6, when the pressing block 14 cannot move, along with the descending of the arc panel 5, the rotation shaft 4 is driven to rotate by self to pull the torsion spring to deform to generate acting force, the arc panel 5 is separated from the pressing block 14, after the arc panel 5 is separated from the pressing block 14, the first spring releases the acting force to drive the pressing block 14 to reset, the reset of the piston is realized, when the piston ascends and resets, the cleaning agent in the storage box 18 is sucked into the pressing box 12, the check valve in the suction pipe 19 is opened at the moment, the check valve in the spray hole is closed, and along with the ascending of the piston, the cleaning agent in the storage box 18 is continuously sucked into the pressing box 12 to be supplemented, when cambered surface board 5 and briquetting 14 separation back, torsional spring release effort drives pivot 4 and cambered surface board 5 rotation and resets, then make with the lug 11 conflict along with the motion of cambered surface board 5, after cambered surface board 5 contradicts with lug 11, along with its motion, make cambered surface board 5 drive pivot 4 rotation, make torsional spring torsion deformation produce the effort, when cambered surface board 5 and lug 11 separation, the torsional spring release effort of deformation drives pivot 4 and cambered surface board 5 and resets fast, make cambered surface board 5 striking opening inner wall, make to produce vibrations, shake the impurity after dissolving from filter screen 6, along with the continuous conflict separation of cambered surface board 5 with lug 11, make filter screen 6 constantly shake, make finally shake the impurity and fall, realize the clearance to filter screen 6, the impurity that shakes falls in the discharge pipe of below, fall on closing plate 29, can pull open closing plate 29 and clear up inside impurity.

While the foregoing details of the apparatus and method for measuring carbon emissions of electric power source provided by the present invention have been described, those skilled in the art will appreciate that the present invention is not limited to the specific embodiments and application ranges given by way of example only.

Claims

1. The utility model provides an electric power energy carbon emission metering equipment, includes box (1), its characterized in that: the utility model discloses a dissolution device, including box (1) and filter screen (10) and is characterized in that the top of box (1) is equipped with admission line (2), rotate between the both sides inner wall of box (1) and install barrel (3), the outside equidistance of barrel (3) is encircleed and is offered the opening, pivot (4) are installed in the opening internal rotation, the both ends of pivot (4) all overlap and are equipped with the torsional spring, the both ends of torsional spring respectively with pivot (4) and opening inner wall fixed connection, the outside fixed cover of pivot (4) is equipped with cambered surface board (5) that match with the opening, the installing port has been seted up at the middle part of cambered surface board (5), fixedly connected with filter screen (6) in the installing port, the inside of box (1) just is located inside fixedly connected with mounting bracket (7) of barrel (3), inside equidistance of mounting bracket (7) is equipped with counter (8), one side inner wall fixedly connected with of box (1) is given vent to anger pipeline (9), mounting bracket (9) are located under pivot (7), be equipped with on barrel (3) and be used for driving its pivoted drive assembly, the inner wall (1) inner wall fixedly connected with filter screen (10) of two sides (10) are equipped with between arc-shaped filter screen (10) and are equipped with between arc-shaped assembly (10), the bottom of the box body (1) and the lower part of the arc-shaped frame (10) are provided with a discharge pipe, and a sealing plate (29) is slidably arranged at the bottom of the discharge pipe.

2. The electric power energy carbon emission measurement device according to claim 1, characterized in that: the utility model provides a dissolving subassembly includes extrusion case (12) of fixed connection between a pair of arc frame (10), extrusion case (12) set up to the arc, the inside of extrusion case (12) is equipped with the piston, the top of piston is through arc pole (13) fixedly connected with briquetting (14), the outside cover of arc pole (13) is equipped with first spring, the top symmetry fixedly connected with support frame (15) of briquetting (14), two rotate between support frame (15) and install spray tube (16), the outside equidistance of spray tube (16) is equipped with the orifice, the bottom of extrusion case (12) is through hose (17) and spray tube (16) intercommunication, be used for driving its pivoted rotating assembly outward of spray tube (16), two fixedly connected with storage case (18) between arc frame (10), the inside packing of storage case (18) has the sanitizer, through between the bottom of extrusion case (12) and storage case (18) through straw (19) intercommunication, straw (19) and interior all are equipped with the check valve, the outside of storage case (18) is equipped with outside pipe (30) with intercommunication with the outside of liquid feeding.

3. The electric power energy carbon emission measurement device according to claim 2, characterized in that: the rotating assembly comprises gears (20) fixedly sleeved on two sides of the spray pipe (16), and racks (21) matched with the gears (20) are fixedly connected to the outer sides of the arc-shaped frames (10).

4. The electric power energy carbon emission measurement device according to claim 1, characterized in that: the top symmetry slidable mounting of box (1) has T shape pole (22), the bottom of T shape pole (22) extends to box (1) internal fixation and is connected with link plate (23), link plate (23) and admission line (2) fixed connection, admission line (2) slip setting is on box (1), the outside cover of T shape pole (22) is equipped with the second spring, the outside equidistance of barrel (3) is encircleed and is equipped with drive piece (24) that are used for driving link plate (23) to rise.

5. The electric power energy carbon emission measurement device according to claim 4, characterized in that: the driving block (24) is specifically arranged as an arc-shaped plate-shaped member with an inclined plane at one side, and the driving block (24) is fixedly connected with the cylinder body (3).

6. The electric power energy carbon emission measurement device according to claim 5, characterized in that: the bottom of the air inlet pipeline (2) is provided with a rubber ring.

7. The electric power energy carbon emission measurement device according to claim 1, characterized in that: the driving assembly comprises a motor (25) fixedly connected to the outer side of the box body (1), a driving gear (26) is fixedly connected in the box body (1) and extends to the output shaft of the motor (25), teeth (27) matched with the driving gear (26) are arranged on the inner wall of the cylinder body (3) in an equidistant mode in a surrounding mode, a pressure sensor (28) is arranged on one side, away from the rotating shaft (4), in the opening, and the pressure sensor (28) is in contact with the cambered surface plate (5).

8. A method of metering using the electric energy carbon emission metering apparatus as claimed in any one of claims 1 to 7, characterized in that: the method comprises the following steps:

s1, when the device is used, an external discharge pipeline is connected with an air inlet pipeline (2), an air outlet pipeline (9) is connected with an external air extractor, waste gas led into a box body (1) through the air inlet pipeline (2) is extracted through the air extractor, the waste gas enters the air outlet pipeline (9) after impurities are filtered through a filter screen (6), and then is extracted to the outside, when the waste gas passes through a meter (8), the meter (8) measures carbon emission, and then the carbon emission is transmitted to the background;

s2, continuously stacking impurities on the filter screen (6) to enable the filter screen (6) to be pressed down, when the impurities are stacked excessively, driving the cylinder (3) to rotate by the driving assembly, driving the rotating shaft (4), the cambered surface plate (5) and the filter screen (6) to rotate, enabling the filter screen (6) stacked with the impurities to be switched with the clean filter screen (6), enabling the cambered surface plate (5) with the clean filter screen (6) to be extruded to drive the rotating shaft (4) to rotate and pull the torsion spring to enable the torsion spring to deform when the cambered surface plate (5) with the filter screen (6) stacked with the impurities is pushed to move away from the air inlet pipeline (2), enabling the deformed torsion spring to release acting force to drive the rotating shaft (4) and the cambered surface plate (5) to rotate until the filter screen (6) is separated from an opening, and stopping driving the driving assembly after the switching is completed;

s3, when the replaced filter screen (6) is excessively stacked with impurities, the driving assembly drives the cylinder body (3) to rotate, the filter screen (6) which is replaced before and stacked with impurities can be matched with the dissolving assembly to dissolve impurities on the surface of the filter screen, then the filter screen is abutted against the convex block (11) along with the movement of the arc panel (5), the arc panel (5) is abutted against the convex block (11) along with the movement of the filter screen, the arc panel (5) drives the rotating shaft (4) to rotate, the torsion spring is enabled to twist and deform to generate acting force, when the arc panel (5) is separated from the convex block (11), the deformed torsion spring releases the acting force to drive the rotating shaft (4) and the arc panel (5) to reset rapidly, so that the arc panel (5) impacts the inner wall of an opening to generate vibration, and the dissolved impurities are vibrated from the filter screen (6);

s4, along with the continuous conflict separation with lug (11) of arc panel (5), make filter screen (6) constantly shake, make finally shake impurity and fall, realize the clearance to filter screen (6), shake impurity that falls and drop in the discharge pipe of below, fall on closure plate (29), can pull open closure plate (29) and clear up inside impurity.