CN114240234A - Carbon emission management platform based on industrial Internet of things - Google Patents

Abstract

A carbon emission management platform based on an industrial Internet of things belongs to the technical field of carbon emission management, and aims to solve the problems that due to the particularity of actual conditions, carbon emission of some enterprises exceeds the standard, carbon emission of some enterprises remains, the urban carbon emission management effect is low, and when workers are not on site, a background service station is in an unattended state and is easy to be stolen by foreign people; the enterprise with the residual carbon emission module in the positive state equivalently sells the residual carbon emission to the enterprise with the residual carbon emission module in the negative state through the transfer transaction module, so that the management of urban carbon emission is facilitated, and the completion of carbon emission indexes is ensured; according to the invention, when one end of the linking straight rod extends into the annular locking groove, the U-shaped locking rod locks the privacy shielding turnover plate, and the privacy shielding turnover plate shields and locks the on-site monitoring display screen, so that external personnel can be prevented from stealing data to a certain extent, and the protection performance of the management platform can be improved.

Description

Carbon emission management platform based on industrial Internet of things

Technical Field

The invention relates to the technical field of carbon emission management, in particular to a carbon emission management platform based on an industrial Internet of things.

Background

Carbon emission refers to the average greenhouse gas emission generated during production, transportation, use and recovery of the product, dynamic carbon emission refers to the amount of greenhouse gas cumulatively emitted per unit of goods, different dynamic carbon emissions exist among batches of the same product, low carbon refers to lower greenhouse gas emission, and water saving, electricity saving, oil saving and gas saving are low-carbon life styles advocated by people, and global warming has become one of the most recognized global crisis in recent years.

The management and control of urban carbon emission has crucial effect to solving the frequent and atmospheric pollution scheduling problem of abnormal climate, the daily energy consumption of the manufacturing enterprise in the city is huge, in order to guarantee that urban environment quality is not influenced, need restrict the management to the carbon emission of each enterprise, but the production demand of each period of all kinds of enterprises all has the difference, and then be difficult to restrict with average carbon emission, and because of actual conditions's particularity, some enterprises ' carbon emission exceeds standard, some enterprises ' carbon emission has surplus, urban carbon emission management effect is low, and city backstage service station carries out on-line management to the carbon emission in city every day, but when the staff is not on-the-spot, the backstage service station is in unmanned supervision state, easily stolen data by the extraneous personnel.

To above problem, improve current device, provided a carbon emission management platform based on industry thing networking.

Disclosure of Invention

The invention aims to provide a carbon emission management platform based on an industrial Internet of things, which solves the problem that the management and control of urban carbon emission in the background technology have a crucial role in solving the problems of frequent abnormal climate, atmospheric pollution and the like, and production enterprises in cities have huge daily energy consumption, in order to ensure that the urban environment quality is not affected, the carbon emission of each enterprise needs to be restricted and managed, but the production requirements of each period of each enterprise are different, further, the average carbon emission is not easy to limit, and due to the particularity of the actual situation, the carbon emission of some enterprises exceeds the standard, the carbon emission of some enterprises remains, the urban carbon emission management effect is low, and the urban carbon emission is managed on line by the urban background service station every day, but when the staff is not on site, the background service station is in an unsupervised state and is easy to be stolen by external staff.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a carbon emission management platform based on industry thing networking, including the backstage service station and be used for showing the on-the-spot supervision display screen of carbon emission real-time data, the backstage service station is including the real-time supervision system who is used for supervising each energy consumption enterprise and the carbon emission turnover system who is used for having enough to meet the need of each energy consumption enterprise carbon emission, and the enterprise information registration module that is used for registering the enterprise information, the backstage service station still includes urban environment detection module that is used for real-time detection urban environment and is used for restricting the emission limit notice module of enterprise's emission, the real-time supervision system is including the real-time database that is used for storing each period of time enterprise emission and the management data module that is used for managing total data, and the data integration calculation module that is used for calculating remaining emission, carbon emission turnover system is including the carbon emission index module that is used for presetting each enterprise carbon emission, the actual carbon emission module that is used for taking notes each enterprise's actual carbon emission and is used for calculating each enterprise's remaining carbon emission The system comprises a discharged residual carbon emission module and a transfer transaction module for transferring to each enterprise;

the background service station comprises a supporting base plate and a data processing cabinet arranged on the upper surface of the supporting base plate, positioning arc openings are formed in four corners of the supporting base plate, an operation cabinet is installed on one side of the data processing cabinet, a display open chute is formed in the side surface of the operation cabinet, a field monitoring display screen is installed inside the display open chute, a privacy shielding turnover plate is installed on one side of the display open chute, a U-shaped locking rod is arranged on the upper top surface inside the display open chute, an arc-shaped limiting bar is installed on the inner side surface of the U-shaped locking rod, positioning locking discs are arranged on the four corners of the supporting base plate, and locking fasteners are arranged at two ends of the surface of the arc-shaped limiting bar;

the one end that the roll-over plate internal surface was shielded in privacy is provided with trapezoidal installation slat, the both sides end of trapezoidal installation slat has all been seted up and has been let in the slotted hole, the annular locking groove has been seted up to the inside wall that lets in the slotted hole, the hasp piece is connected with letting in slotted hole and annular locking groove, U type swing joint spare is installed to the lower extreme that the chute was opened wide in the show, U type swing joint spare's inside is provided with and cup joints the bull stick, the other pot head that the roll-over plate was shielded in privacy is established on the surface that cup joints the bull stick, the location hasp dish is including setting up at the inside embedded mounting disc in ground and installing the movable spacing dish at embedded mounting disc upper surface, movable spacing dish is connected with the location arc mouth.

Furthermore, a movable lifting groove is formed in the upper surface of the embedded mounting plate, a driving groove hole is formed in the center of the bottom surface in the movable lifting groove, the movable limiting plate is matched with the movable lifting groove, a tooth surface lifting column is installed in the center of the lower surface of the movable limiting plate, driving gears are arranged on two sides of an opening of the driving groove hole and meshed with the tooth surface lifting column, and locking sharp grooves are formed in two side walls in the movable lifting groove.

Further, the both sides of movable spacing dish have all been seted up and have been held the slotted hole, the inside that holds the slotted hole is provided with the locking and matches the inserted block, the one end that the inserted block was matchd in the locking is connected with the sharp groove of locking, and the locking matches the inserted block and matches the holding tank pore pair, first swing joint piece is all installed to the interior bottom surface that holds the slotted hole and the one end that the inserted block was matchd in the locking, be provided with linking beam piece between two sets of first swing joint pieces, the both ends that link up beam piece all are provided with second swing joint piece, the lower surface that links up beam piece is provided with the regulation telescopic link, the one end of adjusting the telescopic link is provided with the long slide of translation, the one end and the long slide swing joint of translation of regulation telescopic link, the long slide of translation is installed at the basal surface that holds the slotted hole, install the tractive armed lever between first swing joint piece and the second swing joint piece, the tractive armed lever is provided with two sets of.

Further, the lock catch piece comprises an extension block arranged on the surface of the arc-shaped limiting bar rod and an extension disc arranged at one end of the extension block, a locking hidden connecting disc is arranged on the inner side of the extension disc, locking insertion rods are arranged on the surface of the locking hidden connecting disc and are provided with four groups, and one ends of the four groups of locking insertion rods are connected with an annular locking groove.

Furthermore, the side surface of the extension disc is provided with shuttle slotted holes, four groups of shuttle slotted holes are arranged, a sleeve connection straight rod is arranged inside the shuttle slotted holes, and the surface of the sleeve connection straight rod is sleeved with an external column sleeve.

Further, the drive pivot is installed to the central authorities of locking built-in splice dish, and the side surface of locking built-in splice dish is provided with the extension end angle, and the inside of extending the end angle has been seted up and has been held and connect the groove, and the internally mounted who holds and connect the groove has the activity bull stick of cup jointing.

Further, the locking inserted bar comprises a sleeve-connection rotating ring sleeved on the surface of the sleeve-connection movable rotating rod and a connection straight rod arranged on the side vertical face of the sleeve-connection rotating ring, the connection straight rod is connected with the shuttle groove hole, the upper surface and the lower surface of the connection straight rod are both provided with a leading-in long sliding groove, a limiting clamping sliding groove is formed in the connection straight rod, the leading-in long sliding groove and the limiting clamping sliding groove are communicated, the sleeve-connection straight rod is connected with the leading-in long sliding groove, and an external column sleeve is connected with the limiting clamping sliding groove.

Furthermore, the management data module comprises a carbon emission data acquisition unit for acquiring carbon emission data of each enterprise and a real-time data input unit for loading the carbon emission data of each enterprise in real time, the management data module further comprises a data storage unit for storing the data in a real-time database and a data classification query unit for querying data of each time period by items, and the data integration calculation module comprises a carbon emission data analysis unit for analyzing data change trend and a data regular check unit for regularly checking data change.

Further, the enterprise information registration module comprises a carbon emission demand application unit for applying for carbon emission to the background service station and a carbon emission real-time transmission unit for transmitting data to the background service station, and the enterprise information registration module further comprises a carbon emission real-time inventory unit for transmitting inventory in real time and an application replenishment unit for applying for replenishing the inventory.

Further, the emission limit notification module comprises a total carbon emission amount setting unit for presetting the total urban carbon emission amount and a limit processing unit for processing the excess carbon emission index, and the emission limit notification module further comprises a limit notification unit for notifying each enterprise and a carbon emission forced closing unit for forcibly stopping the carbon emission of each enterprise.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a carbon emission management platform based on an industrial Internet of things, wherein an enterprise information registration module comprises a carbon emission demand application unit for applying for carbon emission to a background service station and a carbon emission real-time transmission unit for transmitting data to the background service station, the enterprise information registration module also comprises a carbon emission real-time inventory unit for transmitting inventory in real time and an application replenishment unit for applying for replenishing the inventory, an emission limit notification module comprises a carbon emission total setting unit for presetting urban carbon emission total and a limit processing unit for processing carbon emission exceeding indexes, the emission limit notification module also comprises a limit notification unit for notifying each enterprise and a carbon emission forced closing unit for forcibly stopping carbon emission of each enterprise, the carbon emission total setting unit sets the carbon emission total of the urban energy consumption enterprise in a certain period according to the environmental quality detected by an urban environment detection module, an enterprise applies for the carbon emission of the enterprise to a background service station through a carbon emission requirement application unit, a carbon emission index module formulates carbon emission indexes for each enterprise according to the set total carbon emission amount, a carbon emission data acquisition unit acquires carbon emission data of each enterprise within a certain period of time, a field monitoring display screen can perform real-time query through a data classification query unit, a data regular verification unit performs comparison and verification on integral data, the carbon emission index module subtracts an actual carbon emission module to form a residual carbon emission module, when the residual carbon emission module is in a negative state, the enterprise performs supplementary application through an application supplement unit, the enterprise with the residual carbon emission module in a positive state equivalently sells the residual carbon emission to the enterprise with the residual carbon emission module in a negative state through a transfer transaction module, so that the management of urban carbon emission is facilitated, and the completion of the carbon emission indexes is ensured, is beneficial to saving energy and protecting the urban ecological environment.

2. The invention provides a carbon emission management platform based on an industrial Internet of things, wherein a containing connecting groove is formed in an extending end corner, a sleeved movable rotating rod is arranged in the containing connecting groove, a locking inserted rod comprises a sleeved rotating ring sleeved on the surface of the sleeved movable rotating rod and a connecting straight rod arranged on the side vertical surface of the sleeved rotating ring, the connecting straight rod is connected with a shuttle groove hole, the upper surface and the lower surface of the connecting straight rod are respectively provided with an access long sliding groove, the inside of the connecting straight rod is provided with a limit clamping sliding groove, the access long sliding grooves are communicated with the inside of the limit clamping sliding grooves, the sleeved straight rod is connected with the access long sliding grooves, an external column sleeve is connected with the limit clamping sliding grooves, when a background service station is in an unsupervised state, a privacy shielding turnover plate is turned over, a trapezoidal installation batten is buckled into the inner side of a U-shaped locking rod and extends into the access groove hole, and a driving rotating shaft is started, make and extend the end angle and use the drive pivot to rotate as the axle center, extend the end angle and pull the linking straight-bar, make the linking straight-bar extend along the slotted hole that shuttles back and forth outwards, utilize to let in long spout and spacing block spout and cup joint the connection of straight-bar and external column cover, it is spacing to carry out linking the straight-bar, extend to annular locking groove when the one end of linking the straight-bar, and then U type locking lever shields the returning face plate to the privacy and locks, the privacy shields the returning face plate and shields the lock death to on-the-spot supervision display screen, prevent to a certain extent that external personnel from stealing data, can promote management platform's protectiveness.

3. The invention provides a carbon emission management platform based on an industrial Internet of things, wherein a locking matching insertion block is arranged inside a containing groove hole, one end of the locking matching insertion block is connected with a locking sharp groove, the locking matching insertion block is matched with a containing groove hole, first movable connecting blocks are respectively arranged on the inner bottom surface of the containing groove hole and one end of the locking matching insertion block, a connecting beam block is arranged between the two groups of first movable connecting blocks, second movable connecting blocks are respectively arranged at two ends of the connecting beam block, an adjusting telescopic rod is arranged on the lower surface of the connecting beam block, a long translation sliding plate is arranged at one end of the adjusting telescopic rod, one end of the adjusting telescopic rod is movably connected with the long translation sliding plate, the long translation sliding plate is arranged on the bottom surface of the containing groove hole, a traction arm rod is arranged between the first movable connecting block and the second movable connecting block, the traction arm rods are provided with two groups, and an embedded type mounting disc is embedded in the ground, the movable limiting disc is clamped to the positioning arc opening by adjusting the telescopic rod, the connecting beam block is pulled downwards by adjusting the telescopic rod, the traction arm rod drives the locking matching insertion block to be clamped with the locking sharp groove along the accommodating groove hole, and the movable limiting disc is adaptive to the movement of the adjusting telescopic rod by adjusting the movable of the telescopic rod, so that the movable limiting disc is locked relative to the embedded mounting disc, and the placing position of the background service station is stably positioned.

Drawings

FIG. 1 is a general working flow chart of a carbon emission management platform based on an industrial Internet of things according to the invention;

FIG. 2 is a flow chart of the operation of the carbon emission management platform transfer transaction module based on the industrial Internet of things;

FIG. 3 is a schematic structural diagram of a background service station of a carbon emission management platform based on an industrial Internet of things according to the present invention;

FIG. 4 is a schematic structural diagram of a privacy-shielding turnover plate of a carbon emission management platform based on an industrial Internet of things according to the invention;

FIG. 5 is a schematic perspective view of a positioning locking disc of a carbon emission management platform based on an industrial Internet of things according to the present invention;

FIG. 6 is a schematic view of the internal plane structure of the positioning locking disc of the carbon emission management platform based on the Internet of things for the industry of the invention;

FIG. 7 is an enlarged view taken at A of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of the structure of the inner plane of the carbon emission management platform entering the slotted hole based on the industrial Internet of things;

FIG. 9 is a schematic structural diagram of a locking piece of a carbon emission management platform based on the Internet of things for the industry of the invention;

FIG. 10 is a schematic diagram of a carbon emission management platform access disk structure based on the Internet of things of the industry according to the present invention;

FIG. 11 is a schematic view of an assembly structure of a locking concealed connecting plate and a locking inserted rod of the carbon discharge management platform based on the industrial Internet of things;

FIG. 12 is a flow chart of the operation of the real-time monitoring system of the carbon emission management platform based on the Internet of things of the industry according to the present invention;

FIG. 13 is a flowchart of the operation of an enterprise information registration module of the carbon emission management platform based on the Internet of things for industry according to the present invention;

fig. 14 is a working flow chart of an emission limit notification module of a carbon emission management platform based on the internet of things of the industry.

In the figure: 1. a background service station; 11. a support backing plate; 111. positioning the arc opening; 12. a data processing cabinet; 13. an operation cabinet; 14. a privacy-masking turning plate; 141. trapezoidal installation ribbon boards; 142. introducing into the slotted hole; 143. an annular locking groove; 15. displaying the open chute; 151. a U-shaped movable connecting piece; 152. a rotating rod is sleeved; 16. a U-shaped locking lever; 161. an arc-shaped limiting bar; 17. positioning a lock catch plate; 171. an embedded mounting plate; 172. a movable limiting disc; 1721. an accommodating slot; 1722. locking the matched plug block; 1723. a first movable connecting block; 1724. connecting the beam blocks; 1725. a second movable connecting block; 1726. adjusting the telescopic rod; 1727. a draw arm lever; 1728. translating the long sliding plate; 173. a movable lifting groove; 174. a drive slot; 175. a tooth face lifting column; 176. a drive gear; 177. locking the sharp groove; 18. a fastener; 181. extending into the tray; 1811. a shuttle slot; 1812. sleeving a straight rod; 1813. connecting a column sleeve externally; 182. locking the hidden connecting disc; 1821. driving the rotating shaft; 1822. an extension end corner; 1823. a movable rotating rod is sleeved; 1824. an accommodating receiving slot; 183. locking the inserted rod; 1831. sleeving a swivel; 1832. a linking straight rod; 1833. introducing into a long chute; 1834. limiting and clamping the sliding chute; 184. an extension block; 2. a field monitoring display screen; 3. a real-time supervision system; 31. a real-time database; 32. a management data module; 321. a carbon emission data acquisition unit; 322. a real-time data entry unit; 323. a data storage unit; 324. a data classification query unit; 33. a data integration calculation module; 331. a carbon emission data analysis unit; 332. a data periodic checking unit; 4. a carbon emissions transfer system; 41. a carbon emission index module; 42. an actual carbon emission module; 43. a residual carbon emission module; 44. a transfer transaction module; 5. an enterprise information registration module; 51. a carbon emission demand application unit; 52. a carbon emission real-time transfer unit; 53. a carbon emission real-time inventory unit; 54. applying for a compensation unit; 6. a city environment detection module; 7. an emission allowance notification module; 71. a total carbon emission amount setting unit; 72. a quota processing unit; 73. a quota notifying unit; 74. a carbon emission forced shutdown unit.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to solve the technical problems that the carbon emission of some enterprises exceeds the standard, the carbon emission of some enterprises remains and the urban carbon emission management effect is low due to the particularity of the actual situation, as shown in fig. 1, fig. 2 and fig. 12-14, the following preferred technical scheme is provided:

a carbon emission management platform based on an industrial Internet of things comprises a background service station 1 and a field supervision display screen 2 used for displaying carbon emission real-time data, wherein the background service station 1 comprises a real-time supervision system 3 used for supervising energy consumption enterprises, a carbon emission turnover system 4 used for turnover of carbon emission requirements of the energy consumption enterprises, and an enterprise information registration module 5 used for registering enterprise information, the background service station 1 further comprises a city environment detection module 6 used for detecting city environment in real time and an emission limit notification module 7 used for limiting the emission amount of the enterprises, the real-time supervision system 3 comprises a real-time database 31 used for storing the emission amount of the enterprises in each time period, a management data module 32 used for managing total data, and a data integration calculation module 33 used for calculating residual emission amount, and the carbon emission turnover system 4 comprises a carbon emission index module 41 used for presetting the carbon emission amount of each enterprise, An actual carbon emission module 42 for recording actual carbon emissions of each enterprise, a remaining carbon emission module 43 for calculating remaining carbon emissions of each enterprise, and a transfer transaction module 44 for transitioning to each enterprise.

The management data module 32 comprises a carbon emission data acquisition unit 321 for acquiring carbon emission data of each enterprise and a real-time data entry unit 322 for loading the carbon emission data of each enterprise in real time, the management data module 32 further comprises a data storage unit 323 for storing the data in the real-time database 31 and a data classification query unit 324 for querying data of each period in terms, the data integration calculation module 33 comprises a carbon emission data analysis unit 331 for analyzing data change trend and a data regular check unit 332 for regularly checking data change, the enterprise information registration module 5 comprises a carbon emission demand application unit 51 for applying for carbon emission to the background service station 1 and a carbon emission real-time transmission unit 52 for transmitting data to the background service station 1, the enterprise information registration module 5 further comprises a carbon emission real-time inventory unit 53 for transmitting inventory in real time and an application replenishment unit 54 for replenishing inventory, the emission limit notification module 7 includes a total carbon emission amount setting unit 71 for setting the total amount of urban carbon emission in advance and a limit processing unit 72 for processing the excess carbon emission index, and the emission limit notification module 7 further includes a limit notification unit 73 for notifying each enterprise and a carbon emission forcible shutoff unit 74 for forcibly stopping the carbon emission of each enterprise.

Specifically, according to the environmental quality detected by the urban environment detection module 6, the carbon emission total setting unit 71 sets the total carbon emission amount of the urban energy consumption enterprise in a certain period, the enterprise applies for the carbon emission amount of the enterprise to the background service station 1 through the carbon emission requirement application unit 51, the carbon emission index module 41 sets a carbon emission index for each enterprise according to the set total carbon emission amount, the carbon emission data acquisition unit 321 acquires the carbon emission data of each enterprise in a certain period, the on-site monitoring display screen 2 can query in real time through the data classification query unit 324, the data periodic check unit 332 checks the whole data by comparison, the carbon emission index module 41 subtracts the actual carbon emission module 42 to form the residual carbon emission module 43, when the residual carbon emission module 43 is in a negative state, the enterprise applies for a supplement through the supplement unit 54, the enterprises which have the residual carbon emission module 43 in the positive state sell the residual carbon emission amount equivalently to the enterprises which have the residual carbon emission module 43 in the negative state through the transfer transaction module 44, so that the management of urban carbon emission is facilitated, the completion of carbon emission indexes is ensured, the energy is saved, and the urban ecological environment is protected.

In order to solve the technical problem that the city background service station manages carbon emission of a city on line every day, but when a worker is not on site, the background service station is in an unsupervised state and is easy to be stolen by foreign people, as shown in fig. 3, 4 and 8-11, the following preferred technical scheme is provided:

the background service station 1 comprises a supporting base plate 11 and a data processing cabinet 12 arranged on the upper surface of the supporting base plate 11, wherein four corners of the supporting base plate 11 are provided with positioning arc openings 111, one side of the data processing cabinet 12 is provided with an operation cabinet 13, the side surface of the operation cabinet 13 is provided with a display open chute 15, the inside of the display open chute 15 is provided with a field supervisory display screen 2, one side of the display open chute 15 is provided with a privacy-shielding turnover plate 14, the upper top surface inside the display open chute 15 is provided with a U-shaped locking rod 16, the inner side surface of the U-shaped locking rod 16 is provided with an arc-shaped limiting bar 161, four corners of the supporting base plate 11 are provided with positioning locking discs 17, two ends of the surface of the arc-shaped limiting bar 161 are provided with locking fasteners 18, one end of the inner surface of the privacy-shielding turnover plate 14 is provided with a trapezoidal installation bar plate 141, two side ends of the trapezoidal installation bar 141 are provided with slotted holes 142, annular locking groove 143 has been seted up to the inside wall that lets in slotted hole 142, and lock catch piece 18 is connected with letting in slotted hole 142 and annular locking groove 143, and U type swing joint piece 151 is installed to the lower extreme that the slot 15 was opened in the show, and the inside of U type swing joint piece 151 is provided with cup joints bull stick 152, and the other end cover of privacy shielding returning face plate 14 is established on the surface of cup jointing bull stick 152.

The locking device 18 comprises an extension block 184 arranged on the surface of the arc-shaped limit bar 161 and an extension disc 181 arranged at one end of the extension block 184, a locking blind flange 182 is arranged on the inner side of the extension disc 181, a locking insertion rod 183 is arranged on the surface of the locking blind flange 182, four groups of locking insertion rods 183 are arranged, one end of each group of locking insertion rods 183 is connected with the annular locking groove 143, a shuttle groove 1811 is arranged on the side surface of the extension disc 181, four groups of shuttle groove 1811 are arranged, a sleeving straight rod 1812 is arranged inside the shuttle groove 1811, an external column sleeve 1813 is sleeved on the surface of the sleeving straight rod 1812, a driving rotating shaft 1821 is arranged in the center of the locking blind flange 182, an extension end corner 1822 is arranged on the side surface of the locking blind flange 182, an accommodating groove 1824 is arranged inside the extension end corner 1822, a sleeving movable rotating rod 1823 is arranged inside the accommodating groove 1824, the locking insertion rod 183 comprises a sleeving rotating ring 1831 sleeved on the surface of the sleeving movable rotating rod 1823 and a straight rod 1832 arranged on the side of the sleeving ring 1831, the engaging straight rod 1832 is connected to the shuttle groove hole 1811, the upper and lower surfaces of the engaging straight rod 1832 are both provided with a lead-in long sliding groove 1833, the inside of the engaging straight rod 1832 is provided with a limit engaging sliding groove 1834, the lead-in long sliding groove 1833 is communicated with the inside of the limit engaging sliding groove 1834, the sleeved straight rod 1812 is connected to the lead-in long sliding groove 1833, and the external column jacket 1813 is connected to the limit engaging sliding groove 1834.

Specifically, when the background service station 1 is in an unsupervised state, the privacy-shielding turning plate 14 is turned over, so that the trapezoidal mounting strip 141 is buckled inside the U-shaped locking bar 16, and extend into the disk 181 into the through slot 142, start the driving shaft 1821 to rotate the extending end angle 1822 around the driving shaft 1821, the extending end angle 1822 pulls the engaging straight rod 1832 to extend the engaging straight rod 1832 outwards along the shuttle slot 1811, and by using the connection between the through long sliding slot 1833 and the limiting and locking sliding slot 1834 and the sleeved straight rod 1812 and the external column 1813, to limit the engaging straight rod 1832, when one end of the engaging straight rod 1832 extends into the annular locking groove 143, and then the U-shaped locking rod 16 locks the privacy shielding turnover plate 14, and the privacy shielding turnover plate 14 shields and locks the on-site monitoring display screen 2, so that external personnel can be prevented from stealing data to a certain extent, and the protection performance of the management platform can be improved.

In order to better solve the technical problems of heavy background service stations and inconvenient positioning, as shown in fig. 3-7, the following preferred technical solutions are provided:

the positioning lock catch disc 17 comprises an embedded mounting disc 171 arranged inside the ground and a movable limiting disc 172 arranged on the upper surface of the embedded mounting disc 171, the movable limiting disc 172 is connected with the positioning arc opening 111, the upper surface of the embedded mounting disc 171 is provided with a movable lifting groove 173, the center of the inner bottom surface of the movable lifting groove 173 is provided with a driving groove hole 174, the movable limiting disc 172 is matched with the movable lifting groove 173, the center of the lower surface of the movable limiting disc 172 is provided with a tooth surface lifting column 175, two open sides of the driving groove hole 174 are both provided with driving gears 176, the driving gears 176 are meshed with the tooth surface lifting column 175, two side walls inside the movable lifting groove 173 are both provided with locking sharp grooves 177, two sides of the movable limiting disc 172 are both provided with accommodating groove holes 1721, the inside of the accommodating groove holes 1721 is provided with locking matching plug blocks 1722, one end of the locking matching plug blocks 1722 is connected with the locking sharp grooves 177, and the locking matching plug 1722 is matched with the holding slot 1721, first movable connecting blocks 1723 are mounted at the inner bottom surface of the holding slot 1721 and at one end of the locking matching plug 1722, a connecting beam 1724 is arranged between the two groups of first movable connecting blocks 1723, second movable connecting blocks 1725 are arranged at two ends of the connecting beam 1724, an adjusting telescopic rod 1726 is arranged at the lower surface of the connecting beam 1724, a long translation sliding plate 1728 is arranged at one end of the adjusting telescopic rod 1726, one end of the adjusting telescopic rod 1726 is movably connected with the long translation sliding plate 1728, the long translation sliding plate 1728 is mounted at the bottom surface of the holding slot 1721, two groups of pulling arm rods 1727 are mounted between the first movable connecting block 1723 and the second movable connecting block 1725.

Specifically, the embedded mounting plate 171 is embedded in the ground, the background service station 1 is moved, the four corners of the support cushion plate 11 are matched with the movable limiting plate 172, the driving gear 176 is started, the tooth face lifting column 175 moves up along the driving groove hole 174 to drive the movable limiting plate 172 to move up along the movable lifting groove 173, the movable limiting plate 172 is clamped with the positioning arc port 111, the engaging beam 1724 is pulled downwards through the adjusting telescopic rod 1726, the pulling arm 1727 drives the locking matching insertion block 1722 to be clamped with the locking sharp groove 177 along the accommodating groove hole 1721, and the movable limiting plate 172 is locked relative to the embedded mounting plate 171 by adjusting the activity of the telescopic rod 1726 and the translation long sliding plate 1728 to adapt to the movement of the adjusting telescopic rod 1726, so that the placement position of the background service station 1 is stably positioned.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a carbon emission management platform based on industry thing networking, includes backstage service station (1) and is used for showing on-the-spot supervision display screen (2) of carbon emission real-time data, its characterized in that: the background service station (1) comprises a real-time supervision system (3) for supervising energy consumption enterprises, a carbon emission turnover system (4) for turning over carbon emission requirements of the energy consumption enterprises, and an enterprise information registration module (5) for registering enterprise information, the background service station (1) further comprises a city environment detection module (6) for detecting city environment in real time and an emission limit notification module (7) for limiting the emission of the enterprises, the real-time supervision system (3) comprises a real-time database (31) for storing the emission of the enterprises in each period of time and a management data module (32) for managing total data, and a data integration calculation module (33) for calculating the residual emission, the carbon emission turnover system (4) comprises a carbon emission index module (41) for presetting the carbon emission of each enterprise, an actual carbon emission module (42) for recording the actual carbon emission of each enterprise, and a residual carbon emission calculation module (33) for calculating the residual carbon emission of each enterprise A carbon emission module (43), and a transfer transaction module (44) for turnaround to the respective enterprise;

the background service station (1) comprises a supporting base plate (11) and a data processing cabinet (12) arranged on the upper surface of the supporting base plate (11), positioning arc openings (111) are formed in four corners of the supporting base plate (11), an operation cabinet (13) is installed on one side of the data processing cabinet (12), a display open chute (15) is formed in the side surface of the operation cabinet (13), a field supervision display screen (2) is installed inside the display open chute (15), a privacy shielding turnover plate (14) is installed on one side of the display open chute (15), a U-shaped locking rod (16) is arranged on the upper top surface inside the display open chute (15), an arc-shaped limiting bar (161) is installed on the inner side surface of the U-shaped locking rod (16), positioning locking discs (17) are arranged on four corners of the supporting base plate (11), and locking pieces (18) are arranged at two ends of the surface of the arc-shaped limiting bar (161);

the one end that upset board (14) internal surface was shielded in privacy is provided with trapezoidal installation slat (141), the both sides end of trapezoidal installation slat (141) has all been seted up and has been let in slotted hole (142), annular locking groove (143) have been seted up to the inside wall that lets in slotted hole (142), hasp piece (18) are connected with letting in slotted hole (142) and annular locking groove (143), U type swing joint spare (151) are installed to the lower extreme that exhibition opened wide chute (15), the inside of U type swing joint spare (151) is provided with and cup joints bull stick (152), the other pot head that upset board (14) was shielded in privacy is established on the surface of cup jointing bull stick (152), location hasp dish (17) are including setting up at the inside embedded mounting disc (171) in ground and installing movable spacing dish (172) at embedded mounting disc (171) upper surface, movable spacing dish (172) are connected with location arc mouth (111).

2. The industrial internet of things-based carbon emission management platform of claim 1, wherein: the upper surface of embedded mounting dish (171) has been seted up movable lifting groove (173), the drive slotted hole (174) have been seted up to the central authorities of bottom surface in movable lifting groove (173), movable spacing dish (172) and movable lifting groove (173) phase-match, flank of tooth lift post (175) are installed to the central authorities of movable spacing dish (172) lower surface, drive slotted hole (174) open-ended both sides all are provided with drive gear (176), drive gear (176) and flank of tooth lift post (175) meshing are connected, locking sharp groove (177) have all been seted up to the inside both sides wall of movable lifting groove (173).

3. The industrial internet of things-based carbon emission management platform of claim 2, wherein: both sides of the movable limiting disc (172) are provided with accommodating slotted holes (1721), the accommodating slotted holes (1721) are internally provided with locking matching insertion blocks (1722), one ends of the locking matching insertion blocks (1722) are connected with locking sharp grooves (177), the locking matching insertion blocks (1722) are matched with the accommodating slotted holes (1721), the inner bottom surface of the accommodating slotted holes (1721) and one ends of the locking matching insertion blocks (1722) are respectively provided with a first movable connecting block (1723), a linking beam block (1724) is arranged between the two groups of first movable connecting blocks (1723), both ends of the linking beam block (1724) are respectively provided with a second movable connecting block (1725), the lower surface of the linking beam block (1724) is provided with an adjusting telescopic rod (1726), one end of the adjusting telescopic rod (1726) is provided with a translation long sliding plate (1728), one end of the adjusting telescopic rod (1726) is movably connected with the translation long sliding plate (1728), the translation long sliding plate (1728) is arranged on the bottom surface of the accommodating slotted holes (1721), a pulling arm rod (1727) is arranged between the first movable connecting block (1723) and the second movable connecting block (1725), and two groups of pulling arm rods (1727) are arranged.

4. The industrial internet of things-based carbon emission management platform of claim 1, wherein: the lock catch piece (18) comprises an extension block (184) arranged on the surface of the arc-shaped limiting bar rod (161) and an extension disc (181) arranged at one end of the extension block (184), a locking blind flange (182) is arranged on the inner side of the extension disc (181), locking insertion rods (183) are arranged on the surface of the locking blind flange (182), four groups of locking insertion rods (183) are arranged, and one ends of the four groups of locking insertion rods (183) are connected with an annular locking groove (143).

5. The industrial internet of things-based carbon emission management platform of claim 4, wherein: the side surface of the extension tray (181) is provided with four groups of shuttle slotted holes (1811), the shuttle slotted holes (1811) are internally provided with a sleeved straight rod (1812), and the surface of the sleeved straight rod (1812) is sleeved with an external column sleeve (1813).

6. The industrial internet of things-based carbon emission management platform of claim 4, wherein: the central authorities of locking built-in connection dish (182) are installed drive pivot (1821), and the side surface of locking built-in connection dish (182) is provided with extension end angle (1822), and the inside of extension end angle (1822) is seted up and is held connecing groove (1824), holds the internally mounted of connecing groove (1824) and cup joints movable bull stick (1823).

7. The industrial internet of things-based carbon emission management platform of claim 6, wherein: the locking inserted bar (183) comprises a sleeve rotating ring (1831) sleeved on the surface of the sleeve movable rotating bar (1823) and an engaging straight bar (1832) arranged on the side vertical face of the sleeve rotating ring (1831), the engaging straight bar (1832) is connected with a shuttle slotted hole (1811), the upper surface and the lower surface of the engaging straight bar (1832) are both provided with a lead-in long sliding groove (1833), the inside of the engaging straight bar (1832) is provided with a limit clamping sliding groove (1834), the inside of the lead-in long sliding groove (1833) and the limit clamping sliding groove (1834) is communicated, the sleeve straight bar (1812) is connected with the lead-in long sliding groove (1833), and an external column sleeve (1813) is connected with the limit clamping sliding groove (1834).

8. The industrial internet of things-based carbon emission management platform of claim 1, wherein: the management data module (32) comprises a carbon emission data acquisition unit (321) for acquiring carbon emission data of each enterprise and a real-time data entry unit (322) for loading the carbon emission data of each enterprise in real time, the management data module (32) further comprises a data storage unit (323) for storing the data in the real-time database (31) and a data classification query unit (324) for querying data of each time period by items, and the data integration calculation module (33) comprises a carbon emission data analysis unit (331) for analyzing data change trends and a data regular check unit (332) for regularly checking data change.

9. The industrial internet of things-based carbon emission management platform of claim 1, wherein: the enterprise information registration module (5) comprises a carbon emission demand application unit (51) for applying for carbon emission to the background service station (1) and a carbon emission real-time transmission unit (52) for transmitting data to the background service station (1), and the enterprise information registration module (5) further comprises a carbon emission real-time inventory unit (53) for transmitting inventory quantity in real time and an application replenishment unit (54) for applying for replenishing the inventory quantity.

10. The industrial internet of things-based carbon emission management platform of claim 1, wherein: the emission limit informing module (7) comprises a total carbon emission amount setting unit (71) for presetting the total urban carbon emission amount and a limit processing unit (72) for processing the excess carbon emission index, and the emission limit informing module (7) further comprises a limit informing unit (73) for informing each enterprise and a carbon emission forced closing unit (74) for forcibly stopping the carbon emission of each enterprise.

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