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CN-224230135-U - Intelligent heat supply device of heat exchange station

CN224230135UCN 224230135 UCN224230135 UCN 224230135UCN-224230135-U

Abstract

The utility model provides an intelligent heat supply device of a heat exchange station, which comprises: the heat exchange station assembly is internally provided with a main heat exchanger for realizing heat exchange, and the rear side of the main heat exchanger is provided with a standby heat exchanger. Through increasing heat exchanger subassembly and monitoring component, main heat exchanger is daily heat supply and uses, need stop the operation when main heat exchanger switches reserve heat exchanger and uses, and all install monitoring component at multiunit business turn over pipe end, accomplish the temperature and the pressure monitoring that supply hot water, intermittent type adjusts the problem that the hot water supply value prevents that user side heat from being too high or low from appearing, thereby can improve the heating effect, through increasing the heat exchange station subassembly, main heat exchanger and reserve heat exchanger pipeline link all can dismantle the pipeline connection through flange structure and outside, and use the bolt to connect flange structure, thereby can be convenient for pipeline maintenance dismantle.

Inventors

  • HAO LING
  • LI ANG
  • FAN ZHENBO
  • JI HUILING

Assignees

  • 北京鑫科创超维科技发展有限公司

Dates

Publication Date
20260512
Application Date
20250507

Claims (8)

  1. 1. The intelligent heat supply device of the heat exchange station comprises a heat exchange station assembly (100) and is characterized in that a main heat exchanger (102) for realizing heat exchange is arranged in the heat exchange station assembly (100), and a standby heat exchanger (103) is arranged at the rear side of the main heat exchanger (102); The heat exchange device comprises a main heat exchanger (102), a main heat inlet pipe (104) is fixedly connected to the right side of the main heat exchanger (102), a main heat outlet pipe (105) is fixedly connected to the left side of the main heat exchanger (102), a standby heat inlet pipe (106) is fixedly connected to the right side of a standby heat exchanger (103), a standby heat outlet pipe (107) is fixedly connected to the left side of the standby heat exchanger (103), and a main heat inlet pipe (108) is fixedly connected to the right front side of the main heat exchanger (102); Main heat supply outlet pipe (109) is fixedly connected with the left front side of main heat exchanger (102), reserve heat exchanger (103) right rear side fixedly connected with reserve heat supply advances pipe (111), reserve heat exchanger (103) left rear side fixedly connected with reserve heat supply outlet pipe (112), main heat supply advances pipe (108) front side fixedly connected with outer connecting pipe one (118), monitoring component (200) are installed to outer connecting pipe one (118) top.
  2. 2. A heat exchange station intelligent heat supply device according to claim 1 is characterized in that a group of external connecting pipes (118) are fixedly connected to the front side of the main heat supply outlet pipe (109) and the rear sides of the standby heat supply inlet pipe (111) and the standby heat supply outlet pipe (112), and a switching communicating pipe (110) is fixedly connected between the front group of external connecting pipes (118) and the rear group of external connecting pipes (118).
  3. 3. A heat exchange station intelligent heat supply device according to claim 2 is characterized in that a group of external connecting pipes II (119) are fixedly connected to the right side of the main heat inlet pipe (104) and the left side of the main heat outlet pipe (105), and a group of electromagnetic valves (114) are arranged on the inner sides of the main heat inlet pipe (104), the main heat outlet pipe (105), the main heat supply inlet pipe (108), the main heat supply outlet pipe (109), the standby heat supply inlet pipe (111) and the standby heat supply outlet pipe (112).
  4. 4. A heat exchange station intelligent heat supply device as set forth in claim 3, wherein a group of electromagnetic valves (114) for controlling the on-off of corresponding pipelines are also installed at the front end of the second external connecting pipe (119), and outer frames (101) for placing protection are fixedly connected to the outer sides of the main heat exchanger (102) and the standby heat exchanger (103).
  5. 5. A heat exchange station intelligent heating apparatus according to claim 4, wherein a group of outer connecting columns (115) are fixedly connected to one ends, far away from the center of the heat exchange station assembly (100), above three groups of outer connecting pipes (118) and two groups of outer connecting pipes (119), and a mounting flange (116) is fixedly connected to the upper part of the outer connecting columns (115).
  6. 6. The intelligent heat supply device of the heat exchange station is characterized in that a second mounting flange (201) is arranged in the monitoring assembly (200), a monitoring column (202) is fixedly connected below the second mounting flange (201), a temperature sensor (203) for monitoring water temperature is arranged in the monitoring column (202), and a pressure sensor (204) is also arranged in the monitoring column (202).
  7. 7. A heat exchange station intelligent heating apparatus according to claim 5, wherein the first mounting flange (116) and the second mounting flange (201) are mutually adhered, and a monitoring column (202) is arranged on the inner side of the outer connecting column (115) for installation by using bolt connection and fixation, a control box (117) is connected to the right side of the main heat exchanger (102), and the control box (117) is also connected with a user-side thermometer.
  8. 8. The intelligent heat supply device for the heat exchange station, as set forth in claim 3, characterized in that the two ends of the two sides of the switching communicating pipe (110) and the two ends of the external connecting pipe (118) are fixedly connected with a group of first connecting flanges (113), and the end, close to the center of the heat exchange station assembly (100), of the external connecting pipe two (119) is also provided with a first connecting flange (113); the heat exchange station comprises a main heat inlet pipe (104), a main heat outlet pipe (105), a standby heat inlet pipe (106), a standby heat outlet pipe (107), a main heat supply inlet pipe (108), a main heat supply outlet pipe (109), a standby heat supply inlet pipe (111) and a standby heat supply outlet pipe (112), wherein a group of connecting flanges II (120) are fixedly connected to one end, far away from the center of the heat exchange station assembly (100).

Description

Intelligent heat supply device of heat exchange station Technical Field The utility model belongs to the technical field of intelligent heat supply, and particularly relates to an intelligent heat supply device of a heat exchange station. Background Intelligent heating is a management mode for optimizing the heating process by utilizing advanced information technology and an automatic control system. The heat supply system improves the efficiency, the energy conservation and the user experience of the heat supply system through real-time monitoring, data analysis and intelligent regulation. Most of the existing heating system equipment operates independently, the system operates according to the set parameters after the equipment sets the parameters, and the set parameters cannot be adjusted in time according to actual required loads. The heating temperature cannot be adjusted in time. The situation that causes a heating lag is more prominent. The heat exchange station is an important component in intelligent heat supply, and is used for realizing heat exchange with a heat supply pipe, most of the existing heat exchange stations only have independent heat exchanger structures in use, and the heat exchange is completed through the heat exchanger, however, in actual use, the heat exchanger can have the conditions of shutdown maintenance, periodic maintenance and the like, so that a stage in which heat cannot be supplied can exist during heat supply, a heat supply intermittent period exists, effective continuous and stable heat supply cannot be realized, heat exchange value adjustment cannot be carried out according to different heat supply conditions, and energy waste caused by higher temperature and insufficient heat supply caused by lower temperature exist. In view of the foregoing, it is desirable to provide a new structure for solving the above-mentioned problems. Disclosure of utility model Aiming at the defects existing in the prior art, the utility model aims to provide an intelligent heat supply device of a heat exchange station, which solves the problems in the background art. The intelligent heat supply device of the heat exchange station comprises a heat exchange station assembly, wherein a main heat exchanger for realizing heat exchange is arranged in the heat exchange station assembly, a standby heat exchanger is arranged at the rear side of the main heat exchanger, a main heat inlet pipe is fixedly connected to the right side of the main heat exchanger, a main heat outlet pipe is fixedly connected to the left side of the main heat exchanger, a standby heat inlet pipe is fixedly connected to the right side of the standby heat exchanger, a standby heat outlet pipe is fixedly connected to the left side of the standby heat exchanger, a main heat inlet pipe is fixedly connected to the right front side of the main heat exchanger, a main heat supply outlet pipe is fixedly connected to the right rear side of the standby heat exchanger, a standby heat supply outlet pipe is fixedly connected to the left rear side of the standby heat exchanger, an outer connecting pipe I is fixedly connected to the front side of the main heat inlet pipe, and a monitoring assembly is arranged above the outer connecting pipe I. As a preferred embodiment, the front side of the main heat supply outlet pipe, the back side of the standby heat supply inlet pipe and the back side of the standby heat supply outlet pipe are also fixedly connected with a group of external connecting pipes, and a switching communicating pipe is fixedly connected between the front group of external connecting pipes and the back group of external connecting pipes. As a preferred implementation mode, the right side of the main heat inlet pipe and the left side of the main heat outlet pipe are fixedly connected with a group of external connecting pipes II, and the inner sides of the main heat inlet pipe, the main heat outlet pipe, the standby heat inlet pipe and the standby heat outlet pipe are respectively provided with a group of electromagnetic valves, so that the electromagnetic valves control the on-off of corresponding pipelines and are used for switching between the main heat exchanger and the standby heat exchanger. As a preferred implementation mode, a group of electromagnetic valves for controlling the on-off of corresponding pipelines are also arranged at the front ends of the two outer connecting pipes, and outer frames for placing protection are fixedly connected to the outer sides of the main heat exchanger and the standby heat exchanger. As a preferred implementation mode, one end, far away from the center of the heat exchange station assembly, of the three groups of the first external connecting pipes and the two groups of the second external connecting pipes is fixedly connected with a group of external connecting columns, and a first mounting flange is fixedly connected above the external connecting columns. As a preferred implementation