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CN-122028372-A - Dynamic response type cooling control device based on multi-source data fusion

CN122028372ACN 122028372 ACN122028372 ACN 122028372ACN-122028372-A

Abstract

The invention relates to the technical field of power system control, and discloses a dynamic response type cooling control device based on multi-source data fusion. The intelligent cooling device comprises a machine box, wherein a mounting plate is fixedly connected to the interior of the machine box, a sliding block is connected to the front surface of the mounting plate in a sliding manner, a movable rod is fixedly connected to the upper surface of the sliding block, a socket seat is sleeved on the outer surface of the movable rod, a data acquisition module, a data processing and analyzing module, a dynamic response control module and a cooling execution module are respectively connected to the interior of the socket seat in a jogged manner, a rubber sleeve is sleeved on the outer surface of the socket seat, an electromagnetic coil is arranged on the inner wall of the rubber sleeve, and a fixing plate is fixedly connected to the upper surface of the socket seat.

Inventors

  • JIANG HUI
  • REN JUNWEI
  • ZHAO JINGTAO
  • ZHAO JUNYAN

Assignees

  • 陕西盈德气体有限公司

Dates

Publication Date
20260512
Application Date
20260316

Claims (10)

  1. 1. The dynamic response type cooling control device based on multi-source data fusion comprises a machine box (1) and is characterized in that an installation plate (18) is fixedly connected to the inside of the machine box (1), a sliding block (27) is connected to the front surface of the installation plate (18) in a sliding mode, a movable rod (26) is fixedly connected to the upper surface of the sliding block (27), a socket seat (19) is sleeved on the outer surface of the movable rod (26), a data acquisition module (25), a data processing and analyzing module (24), a dynamic response control module (20) and a cooling execution module (22) are respectively connected to the inside of the socket seat (19) in a jogged mode, a rubber sleeve (21) is sleeved on the outer surface of the socket seat (19), an electromagnetic coil (31) is arranged on the inner wall of the rubber sleeve (21), a fixed plate (29) is fixedly connected to the upper surface of the socket seat (19), a push rod (30) is connected to the inner jogged mode of the fixed plate (29), an adsorption disc (28) is arranged at the rear end of the push rod (30), and the adsorption disc (28) is attracted to the front surface of the installation plate (18).
  2. 2. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein a fitting groove (23) is formed in the front surface of the machine box (1), and a fitting plate (7) is connected to the inside of the fitting groove (23) in a fitting manner.
  3. 3. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein a control board (2) is fixedly connected to the front surface of the embedded board (7), a bolt (4) is connected to the inner thread of the control board (2), and the bolt (4) is connected to the inner thread of the machine box (1).
  4. 4. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein a display screen (3) is arranged on the front surface of the control board (2), keys (5) are arranged on the front surface of the control board (2), and the keys (5) are located on two sides of the display screen (3).
  5. 5. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein the two sides of the machine box (1) are provided with radiating holes (6), the inner wall of the machine box (1) is provided with a radiating fan (13), and the radiating fan (13) is positioned behind the mounting plate (18).
  6. 6. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein a first guide rail (12) and a second guide rail (8) are fixedly connected to the inner wall of the machine box (1), the second guide rail (8) is located above the first guide rail (12), and a guide seat (10) is slidably connected to the front surface of the first guide rail (12).
  7. 7. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein the front surface of the second guide rail (8) is slidably connected with a movable seat (17), a screw rod (9) is arranged in the second guide rail (8), the screw rod (9) is in threaded connection with the inside of the movable seat (17), a motor (14) is arranged on the side surface of the second guide rail (8), and the output end of the motor (14) is fixedly connected with the screw rod (9).
  8. 8. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein the guide seat (10) and the front surface of the movable seat (17) are fixedly connected with a heat collecting seat (16), the front surface of the heat collecting seat (16) is fixedly connected with a copper sheet (15), and the copper sheet (15) is positioned behind the mounting plate (18).
  9. 9. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein the heat conducting rod (11) is fixedly connected to the lower surface of the heat collecting seat (16), and the heat conducting rod (11) is located in front of the cooling fan (13).
  10. 10. The dynamic response type cooling control device based on multi-source data fusion according to claim 1, wherein the data acquisition module (25) is used for acquiring multi-source data of a cooling object, the data processing and analyzing module (24) is electrically connected with the data acquisition module (25), the data processing and analyzing module (24) is used for preprocessing, feature extraction and fusion analysis of the acquired multi-source data, the dynamic response control module (20) is electrically connected with the data processing and analyzing module (24), the dynamic response control module (20) is used for dynamically adjusting operation parameters of the cooling device according to real-time state information and cooling requirements, the cooling execution module (22) is electrically connected with the dynamic response control module (20), and the cooling execution module (22) is used for executing specific cooling operation according to control signals output by the dynamic response control module (20).

Description

Dynamic response type cooling control device based on multi-source data fusion Technical Field The invention relates to the technical field of power system control, in particular to a dynamic response type cooling control device based on multi-source data fusion. Background The dynamic response type cooling control device based on multi-source data fusion is an advanced cooling system integrated with various sensors, intelligent algorithms and regulation and control execution mechanisms, and aims to dynamically adjust a cooling strategy by collecting and analyzing multi-dimensional data in real time so as to realize efficient and accurate temperature control management; At present, when the device is used, the position distribution condition of a plurality of modules during installation cannot be adjusted according to the requirement, so that the position distribution of the plurality of modules is unreasonable and is easy to be interfered, and the normal use of the device is affected; meanwhile, the device is prepared by integrating a plurality of modules, so that excessive heat generated by the modules is caused, the heat generated by the modules is usually radiated in a water cooling mode, and the water cooling radiating specification is strong, so that the heat existing at gaps of the modules cannot be thoroughly radiated, and the service life of the device is reduced. Disclosure of Invention (One) solving the technical problems Aiming at the defects of the prior art, the invention provides a dynamic response type cooling control device based on multi-source data fusion, a data acquisition module, a data processing and analyzing module, a dynamic response control module and a cooling execution module are inserted into a socket seat to realize electric connection, because the socket seat is connected with a mounting plate through a movable rod and a sliding block, an operator can hold the socket seat or the module and push the socket seat to slide along the front surface of the mounting plate to slide the socket seat to a required working position, after the position of the module is determined, an adsorption disc at the rear end of a push rod is finally and tightly adsorbed on the front surface of the mounting plate, the socket seat and the mounting plate are firmly locked together and cannot move any more, an electromagnetic coil on the inner wall of a rubber sleeve is electrified, after the electromagnetic coil is electrified, a magnetic field for locking is generated, the coil also forms a closed metal loop, the metal loop can effectively absorb and shield external electromagnetic waves, a local electromagnetic shielding environment is provided for the modules in the socket seat, thereby preventing electromagnetic interference between a plurality of adjacent modules, a local shielding cover is provided for each module by utilizing the electrified electromagnetic coil, the purpose of interference prevention is achieved, the data acquisition module, the data processing and analyzing module, the dynamic response control module and the cooling execution module are not easy to be interfered when in use, the copper sheet can absorb heat emitted by the mounting plate, the motor is started to drive the screw rod to rotate, the movable seat in threaded connection with the screw rod moves horizontally along the second guide rail, meanwhile, the guide seat slides along the first guide rail to keep stable, the heat collecting seat can conveniently drive the copper sheet and the heat conducting rod to move back and forth together, the copper sheet is accurately aligned and closely contacts the back surface of the heating element, thereby efficiently absorbing the heat, after the heat is absorbed by the copper sheet, the heat is quickly transferred to the heat collecting seat behind the copper sheet, the heat collecting seat is usually made of materials with good heat conduction such as aluminum alloy, the heat collecting seat has larger surface area, the concentrated heat is diffused, the heat absorbed by the heat collecting seat can be directly and backwardly emitted to the surrounding air, the heat is downwards transferred to the heat conducting rod, the heat radiating area contacted with the air is also enlarged by the heat conducting rod, the cooling fan is started, cold air is sucked from the outside of the machine box, the air flow firstly blows through the heat conducting rod in front of the heat conducting rod to perform forced convection heat exchange with the high-temperature heat conducting rod, a large amount of heat is taken away, the air flow continues to backwardly flow and blows through the surface of the heat collecting seat, the second efficient heat exchange is performed, the heated air flow is continuously taken away to the outside of the machine box through the heat radiating holes at two sides of the machine box under the driving of the fan, the motor drives the copper sheet to the position