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CN-116717786-B - Energy system heat distribution monitoring device

CN116717786BCN 116717786 BCN116717786 BCN 116717786BCN-116717786-B

Abstract

The invention discloses an energy system heat distribution monitoring device which comprises a furnace body, a pushing mechanism arranged on one side of the furnace body, an adjusting component and a closing mechanism, wherein the adjusting component and the closing mechanism are arranged on the furnace body and are in transmission connection with each other, a moving plate is arranged in the pushing mechanism, a driving mechanism is arranged on the moving plate, a rotating rod is connected onto the moving plate in a rotating way, a torsion spring is sleeved on the rotating rod, an opening mechanism is arranged in the rotating rod, a self-locking mechanism is arranged on the threaded rod, a smoke exhaust pipe is fixedly connected onto the furnace body, a smoke detector and a temperature monitor are arranged in the smoke exhaust pipe, and a plurality of other temperature monitors are arranged on the outer side of the furnace body. The invention can effectively ensure the combustion state of combustion, and avoid the phenomenon that the combustion cannot fully burn and heat is wasted due to the fact that stacking occurs during the combustion.

Inventors

  • KE SHENGJIN
  • HUANG YU
  • LI YONGZHI
  • XIE KAIJI
  • JIANG XUHUI
  • ZHANG XI
  • WANG RUIQIONG
  • WANG SONG
  • LUO ZHANG
  • XUE XIAO
  • ZHOU YAO
  • ZHU YUANHAO

Assignees

  • 中国电建集团重庆工程有限公司
  • 中国科学院重庆绿色智能技术研究院

Dates

Publication Date
20260505
Application Date
20230612

Claims (6)

  1. 1. The heat distribution monitoring device of the energy system comprises a furnace body (1) and is characterized by further comprising a pushing mechanism (2) arranged on one side of the furnace body (1), an adjusting component (8) and a closing mechanism (9), wherein the adjusting component (8) and the pushing mechanism (2) are in transmission connection, a moving plate (12) is arranged in the pushing mechanism (2), a driving mechanism (13) is arranged on the moving plate (12), a rotating rod (19) is rotatably connected on the moving plate (12), a torsion spring (21) is sleeved on the rotating rod (19), and an opening mechanism (22) is arranged in the rotating rod (19); The opening mechanism (22) comprises a threaded rod (23), a second gear (20), a thread sleeve (24), a rotating shaft (25), a pull rod (26) and a mixing plate (27), the threaded rod (23) is rotationally connected to the rotating rod (19), the second gear (20) is installed at one end of the threaded rod (23), the second gear (20) is movably meshed with the first gear (16) in the driving mechanism (13), the thread sleeve (24) is connected to the threaded rod (23) in a threaded manner, the thread sleeve (24) is slidingly connected to the rotating rod (19), a plurality of rotating shafts (25) are rotationally connected to the rotating shaft (19), the mixing plate (27) is rotationally connected to the rotating shaft (25), and the pull rod (26) is rotationally connected between the mixing plate (27) and the thread sleeve (24). The novel anti-theft lock is characterized in that a self-locking mechanism (28) is arranged on the threaded rod (23), the self-locking mechanism (28) comprises a fixed disc (29), a locking groove (30), a rotating disc (31), springs (32) and locking blocks (33), the fixed disc (29) is arranged on the rotating rod (19), a plurality of locking grooves (30) are formed in the fixed disc (29), the rotating disc (31) is arranged on the threaded rod (23), a plurality of springs (32) are fixedly connected to the rotating disc (31), the locking blocks (33) are arranged at one ends of the springs (32), and the locking blocks (33) are movably connected in the locking grooves (30); the flue gas exhaust device is characterized in that a flue gas exhaust pipe (34) is fixedly connected to the furnace body (1), a flue gas detector (35) and a temperature monitor (36) are arranged in the flue gas exhaust pipe (34), and a plurality of other temperature monitors (36) are arranged on the outer side of the furnace body (1).
  2. 2. The energy system heat distribution monitoring device according to claim 1, wherein the pushing mechanism (2) comprises a fixed seat (3), a guide rail (4), a driving shaft (5), a synchronous belt (6) and a first driving motor (7), two pairs of fixed seats (3) are installed on the furnace body (1), the guide rail (4) is fixedly connected between the two fixed seats (3), two driving shafts (5) are rotatably connected on the guide rail (4), the synchronous belt (6) is in transmission connection between the two driving shafts (5), one of the fixed seats (3) is provided with the first driving motor (7), the output end of the first driving motor (7) is fixedly connected with one of the driving shafts (5), one end of the moving plate (12) is slidably connected on the guide rail (4), and the other end of the moving plate is fixedly connected on the synchronous belt (6).
  3. 3. The energy system heat distribution monitoring device according to claim 2, wherein the closing mechanism (9) comprises a closing plate (10) and a rack (11), the closing plate (10) is connected to the furnace body (1) in a sliding manner, and the rack (11) is mounted on the closing plate (10).
  4. 4. The energy system heat distribution monitoring device according to claim 3, wherein a speed regulation box is arranged in the regulating assembly (8), driving teeth and a belt wheel are arranged on the speed regulation box, the belt wheel is in transmission connection with a driving shaft (5) in the pushing mechanism (2), and the driving teeth are meshed with racks (11) in the closing mechanism (9).
  5. 5. The energy system heat distribution monitoring device according to claim 1, wherein the driving mechanism (13) comprises a second driving motor (14), a telescopic rod (15), a first gear (16), a rotary column (17) and a half gear (18), the second driving motor (14) is installed on the moving plate (12), the telescopic rod (15) is fixedly connected to the output end of the second driving motor (14), a clamping block and the first gear (16) are arranged on the telescopic rod (15), the rotary column (17) is rotatably connected to the moving plate (12), a self-locking elastic locking assembly is arranged in the rotary column (17), the clamping block is movably connected to the rotary column (17), the half gear (18) is installed on the rotary column (17), and the half gear (18) and a third gear (38) arranged on the rotary rod (19) are meshed with each other.
  6. 6. The heat distribution monitoring device of an energy system according to claim 1, wherein the plurality of temperature monitors (36) are positioned on a plurality of surfaces of the furnace body (1), and a feeding plate (37) is arranged on the front side of the furnace body (1).

Description

Energy system heat distribution monitoring device Technical Field The invention relates to the technical field of intelligent energy, in particular to an energy system heat distribution monitoring device. Background By utilizing the Internet of things and the advanced sensing technology and carrying out real-time monitoring and mass data analysis on the comprehensive energy system, the problems in the regional comprehensive energy system and the optimized lifting space are diagnosed, and accurate data support and decision basis can be provided for comprehensive energy efficiency management. The comprehensive intelligent energy system carbon emission responsibility quantitative analysis method considering new energy contribution is researched, the carbon emission responsibility of users is quantitatively researched from multiple dimensions according to different user energy consumption of the regional comprehensive energy system by combining the carbon reduction contribution of new energy, and the carbon emission responsibility is distributed according to the energy consumption proportion of each region or enterprise, so that fairness and operability are considered, and the carbon emission responsibility allocation is realized. In the intelligent energy, the heat generated by the combustion of the boiler can be effectively used as one of the intelligent energy, but the problems exist in the combustion of the boiler, the heat released in the combustion process can be changed according to the combustion condition of the materials, when the combustion is insufficient, the carbon dioxide and the heat in the flue gas discharged by the boiler can be changed, when the harmful substances in the flue gas are increased, the problem of the combustion in the boiler can be judged when the heat in the flue gas is increased, so that the heat in the combustion cannot be fully absorbed and utilized, and the heat waste is caused, therefore, the heat monitoring in the boiler is very necessary, the combustion state can be adjusted at any time in the monitoring process, and the full utilization and the absorption of the heat are also more important. Based on the above, the invention designs a heat distribution monitoring device of an energy system to solve the above problems. Disclosure of Invention The invention aims to provide a heat distribution monitoring device of an energy system, which aims to solve the problems that heat dissipation is caused by insufficient combustion of a combustion object and heat emission is wasted due to insufficient adjustment of a combustion state in the prior art. The energy system heat distribution monitoring device comprises a furnace body, a pushing mechanism arranged on one side of the furnace body, an adjusting component and a closing mechanism which are arranged on the furnace body and are in transmission connection with each other, wherein the adjusting component is in transmission connection with the pushing mechanism, a movable plate is arranged in the pushing mechanism, a driving mechanism is arranged on the movable plate, a rotating rod is rotatably connected to the movable plate, a torsion spring is sleeved on the rotating rod, an opening mechanism is arranged in the rotating rod, a self-locking mechanism is arranged on the threaded rod, a smoke exhaust pipe is fixedly connected to the furnace body, a smoke detector and a temperature monitor are arranged in the smoke exhaust pipe, and a plurality of other temperature monitors are arranged on the outer side of the furnace body. As a further scheme of the invention, the pushing mechanism comprises a fixed seat, a guide rail, a driving shaft, a synchronous belt and a first driving motor, wherein two pairs of fixed seats are arranged on the first furnace body, the guide rail is fixedly connected between the two fixed seats, the two driving shafts are rotationally connected to the guide rail, the two driving shafts are fixedly connected, the synchronous belt is connected between the two driving shafts in a transmission manner, the first driving motor is arranged on one of the fixed seats, the output end of the first driving motor is fixedly connected with one of the driving shafts, one end of the moving plate is slidably connected to the guide rail, and the other end of the moving plate is fixedly connected to the synchronous belt. As a further scheme of the invention, the closing mechanism comprises a closing plate and a rack, the furnace body is connected with the closing plate in a sliding manner, and the rack is arranged on the closing plate. As a further scheme of the invention, a speed regulation box is arranged in the regulating assembly, a driving tooth and a belt wheel are arranged on the speed regulation box, the belt wheel is in transmission connection with a driving shaft in the pushing mechanism, and the driving tooth is meshed with a rack in the closing mechanism. As a further scheme of the invention, the driving mechanism co