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CN-224229763-U - Cold-storage heat pipe management device for energy station

CN224229763UCN 224229763 UCN224229763 UCN 224229763UCN-224229763-U

Abstract

The application relates to a cold accumulation heat pipe management device for an energy station, which belongs to the technical field of energy station management and comprises a water pressure monitoring module, a pipe control module, a leakage blocking module and a control module, wherein the water pressure monitoring module is used for monitoring the pressure of a pipe and observing and determining a leakage point, the pipe control module is arranged on the pipe and used for controlling and switching the pipe through which fluid flows, the leakage blocking module is arranged in parallel with the pipe and can move to the position of the leakage point and block the position of the leakage, and the control module is respectively connected with the water pressure monitoring module, the pipe control module and the leakage blocking module and is used for controlling the pipe control module to switch the pipe and the leakage blocking module to block the leakage point by receiving monitoring signals of the water pressure monitoring module. The application can rapidly find and process the damage and leakage problems of the pipeline, remove faults in time, reduce the loss of energy sources and improve the pipeline management efficiency in the energy source station.

Inventors

  • ZHANG YAN
  • LIU DONGSHENG
  • WANG RONGBING
  • ZHANG ZHENGWU
  • ZHANG WANLONG
  • CUI GANG
  • YANG CHENGUANG
  • WANG JIANGZE

Assignees

  • 北京北投生态环境有限公司

Dates

Publication Date
20260512
Application Date
20250630

Claims (7)

  1. 1. A cold-storage heat pipe management device for an energy station, comprising: The water pressure monitoring module (1) is used for monitoring the pressure of the pipeline and observing and determining water leakage points; The pipeline control module (2) is arranged on the pipeline and is used for controlling and switching the pipeline through which the fluid flows; A leakage plugging module (3) which is arranged in parallel with the pipeline, can move to the position of the water leakage point and plug the water leakage position, and The control module (4) is respectively connected with the water pressure monitoring module (1), the pipeline control module (2) and the leakage plugging module (3), and is used for controlling the pipeline control module (2) to switch pipelines and the leakage plugging module (3) to plug water leakage points by receiving monitoring signals of the water pressure monitoring module (1).
  2. 2. The cold and heat storage pipeline management device for the energy station according to claim 1, wherein the water pressure monitoring module (1) comprises a pressure sensor (11) connected to a pipeline and a video camera (12) arranged in the energy station, and the pressure sensor (11) is connected with the control module (4) and transmits a pressure signal to the control module (4).
  3. 3. The cold-storage heat pipe management device for an energy station according to claim 1, wherein the pipe control module (2) comprises a standby pipe (21) arranged in parallel with the pipe and a control valve group connected to the pipe, the control valve group is connected to the standby pipe (21), the control valve group is electrically connected to the control module (4), and the control module (4) sends a control command to the control valve group.
  4. 4. A cold and hot pipe management device for an energy station according to claim 3, characterized in that the control valve group comprises two electromagnetic three-way valves (22) connected between the pipe and the backup pipe (21), the electromagnetic three-way valves (22) communicating with the pipe or the backup pipe (21).
  5. 5. The cold-storage heat pipe management device for the energy station according to claim 1, wherein the leakage plugging module (3) comprises a walking track (31) arranged parallel to the pipe and a plugging vehicle movably arranged on the walking track (31), and the plugging vehicle is sleeved on the pipe.
  6. 6. The cold and heat storage pipeline management device for the energy station according to claim 5, wherein the walking track (31) is provided with a transmission chain with the same trend as that of the pipeline, a driving wheel of the transmission chain is connected with a driving motor (32), the driving motor (32) is electrically connected with the control module (4), and the plugging vehicle is fixedly connected on the transmission chain.
  7. 7. The cold and heat storage pipeline management device for an energy station according to claim 6, wherein the plugging vehicle comprises a fixed seat (33) connected with a transmission chain, a pipeline sleeve ring (34) connected with the fixed seat (33), a plugging air bag (35) arranged on the inner ring of the pipeline sleeve ring (34) and an air pump (36) connected with the plugging air bag (35), and the air pump (36) is electrically connected with the control module (4).

Description

Cold-storage heat pipe management device for energy station Technical Field The application relates to the technical field of energy station management, in particular to a cold accumulation heat pipeline management device for an energy station. Background The heating machine room belongs to a device room for providing heating for a heating area, and generally comprises a water supply unit, a water pump, a boiler unit, a water treatment dosing device, a water collector, a water separator, various electric control components and the like, wherein in order to provide heating for the heating area, fluid is required to be conveyed through a pipeline, and after being pressurized by a blower, a compressor, a pump, a boiler and the like and heated, the fluid flows from a high-pressure position to a low-pressure position of the pipeline, and the pressure or gravity of the fluid can be utilized for conveying. However, in the long-time use process of the pipeline, the pipeline wall is damaged due to the influence of other factors such as aging, collision and the like, so that a large amount of fluid in the pipeline is poured out, and if the fluid cannot be removed and processed in time, the energy loss is caused, so that the cold accumulation heat pipeline management device for the energy station needs to be provided. Disclosure of utility model The application aims to provide a cold-storage heat pipe management device for an energy station, which can be used for more rapidly finding and treating the damage and leakage problems of a pipe, eliminating faults in time, reducing the loss of energy and improving the pipe management efficiency in the energy station. The application provides a cold accumulation heat pipeline management device for an energy station, which adopts the following technical scheme: a cold-storage thermal conduit management device for an energy station, comprising: the water pressure monitoring module is used for monitoring the pressure of the pipeline and observing and determining water leakage points; The pipeline control module is arranged on the pipeline and used for controlling and switching the pipeline through which the fluid flows; a leakage blocking module arranged parallel to the pipeline and capable of moving to and blocking the water leakage point position, and The control module is respectively connected with the water pressure monitoring module, the pipeline control module and the leakage plugging module, and is used for controlling the pipeline control module to switch the pipeline and the leakage plugging module to plug the water leakage point by receiving the monitoring signal of the water pressure monitoring module. As a preferable technical scheme of the application, the water pressure monitoring module comprises a pressure sensor connected to the pipeline and a video camera arranged in the energy station, wherein the pressure sensor is connected with the control module and transmits a pressure signal to the control module. As a preferable technical scheme of the application, the pipeline control module comprises a standby pipeline which is arranged in parallel with the pipeline and a control valve group which is connected to the pipeline, wherein the control valve group is connected with the standby pipeline and is electrically connected with the control module, and the control module sends a control command to the control valve group. As a preferred technical scheme of the application, the control valve group comprises two electromagnetic three-way valves connected between the pipeline and the standby pipeline, and the electromagnetic three-way valves are communicated with the pipeline or the standby pipeline. As a preferable technical scheme of the application, the leakage plugging module comprises a walking track arranged parallel to the pipeline and a plugging vehicle movably arranged on the walking track, wherein the plugging vehicle is sleeved on the pipeline. As a preferable technical scheme of the application, the walking track is provided with a transmission chain with the same trend as that of the pipeline, a driving wheel of the transmission chain is connected with a driving motor, the driving motor is electrically connected with the control module, and the plugging vehicle is fixedly connected on the transmission chain. As a preferable technical scheme of the application, the plugging vehicle comprises a fixed seat connected with a transmission chain, a pipeline sleeve ring connected with the fixed seat, a plugging air bag arranged at the inner ring of the pipeline sleeve ring and an inflator pump connected with the plugging air bag, wherein the inflator pump is electrically connected with a control module. In summary, the present application includes at least one of the following beneficial technical effects: 1. According to the application, the pressure condition of the cold and hot storage pipeline in the energy station is monitored by the water pressure monitorin