Intelligent balancing device for heat pipe network

By adding a fan structure, heater, and wind deflector to the intelligent balancing equipment of the thermal pipeline network, dehumidification and heat dissipation of the equipment are achieved, solving the problem of shortened service life of the equipment in humid environments and ensuring normal operation of the equipment in humid environments.

CN224470336UActive Publication Date: 2026-07-07HUADIAN ZHENGZHOU MECHANICAL DESIGN INST

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUADIAN ZHENGZHOU MECHANICAL DESIGN INST
Filing Date
2025-06-26
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing intelligent balancing equipment for thermal pipelines lacks effective dehumidification and heat dissipation components, which affects the service life of the equipment.

Method used

In the intelligent balancing equipment for the thermal pipeline network, two sets of fans are added for air inlet and air outlet. Combined with heaters and temperature and humidity detectors, the air inlet and outlet holes are blocked by a wind deflector. The intermittent heating and dehumidification is achieved by using a motor-driven gear and teeth to ensure that the inside of the equipment is dry.

Benefits of technology

It effectively accelerates heat dissipation efficiency, prevents corrosion of components in humid climates, extends equipment lifespan, and ensures normal operation of equipment in humid environments.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a heat distribution network intelligence balance equipment, it relates to heat distribution network technical field, aims at solving the problem that the existing heat distribution network uses the intelligence balance equipment of lacking effective dehumidification heat radiation subassembly, influences the service life of equipment, its technical scheme main points are including the box, the inside fixedly connected with the air inlet seat of box, the inside installation of air inlet seat has the air inlet fan, the air inlet seat outside one side has reserved the air inlet, the air inlet seat outside another side fixedly connected with the air inlet dustproof screen, the outside fixedly connected with the air outlet seat of box, the inside installation of air outlet seat has the air outlet fan, the air outlet seat outside one side has reserved the air outlet, the air outlet seat outside another side fixedly connected with the air outlet dustproof screen. Reached the effect that the convenient heat dissipation uses.
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Description

Technical Field

[0001] This utility model relates to the field of heat pipe network technology, and in particular to intelligent balancing equipment for heat pipe networks. Background Technology

[0002] Heating pipe networks belong to the fields of HVAC engineering and heating engineering. They refer to the network of heating pipes originating from heat sources such as boiler rooms, direct-fired turbine rooms, and heating centers, leading to the heating inlets of buildings. Multiple heating pipes together form a network system used to transport heat media such as hot water or steam to provide heating services to buildings in cities or regions. In heating pipe networks (such as centralized heating and central air conditioning systems), hot or cold water is transported through pipes to various users or terminal devices (such as radiators and fan coil units). Ideally, each terminal should receive the designed flow rate to achieve the expected heating / cooling effect. Balancing devices (such as static balancing valves and dynamic differential pressure balancing valves) actively adjust resistance to solve hydraulic imbalance problems. Balancing devices are an essential means of fine-tuning, not a replacement for water pumps. Intelligent balancing devices are a technological upgrade of traditional balancing devices, achieving more accurate and efficient hydraulic balance through automated control, real-time monitoring, and intelligent algorithms.

[0003] The existing technical solutions mentioned above have the following drawbacks: the intelligent balancing equipment used in existing heating networks lacks effective dehumidification and heat dissipation components, which affects the service life of the equipment. Utility Model Content

[0004] The purpose of this invention is to provide an intelligent balancing device for thermal pipeline networks.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] A thermal pipeline intelligent balancing device includes a housing. An air inlet seat is fixedly connected inside the housing. An air inlet fan is installed inside the air inlet seat. An air inlet hole is reserved on one side of the outer side of the air inlet seat. An air inlet dustproof net is fixedly connected to the other side of the outer side of the air inlet seat. An air outlet seat is fixedly connected to the outer side of the housing. An air outlet fan is installed inside the air outlet seat. An air outlet hole is reserved on one side of the outer side of the air outlet seat. An air outlet dustproof net is fixedly connected to the other side of the outer side of the air outlet seat.

[0007] By adopting the above technical solution, two sets of fan structures, one for air intake and one for air exhaust, are added to the bottom of the enclosure. The two are combined into one air duct structure, which can accelerate the efficiency of heat dissipation. At the same time, the bottom location can prevent water from entering from the outside and ensure the stable operation of the heat dissipation structure.

[0008] Furthermore, a heater, a temperature and humidity detector, and an intelligent thermal balancing device are fixedly connected to the inner side of the enclosure. A sealing door is rotatably connected to the outer side of the enclosure via a hinge. A control panel is fixedly connected to the outer side of the sealing door. A windproof assembly is installed inside the enclosure, and the same windproof assembly is installed on the outer side of the enclosure.

[0009] By adopting the above technical solution and adding an internal heater and temperature and humidity detector, the internal structure can be heated to prevent corrosion of the internal components by humid climate.

[0010] Furthermore, the windshield assembly includes a limiting seat, a baffle, teeth, a support seat, a rotating shaft, a gear, and a motor. The limiting seat has a baffle installed inside, teeth are fixedly connected to the outside of the baffle, a support seat is fixedly connected to the outside of the baffle, a rotating shaft is installed inside the support seat, a gear is fixedly connected to the outside of the rotating shaft, and a motor is fixedly connected to the outside of the support seat.

[0011] By adopting the above technical solution, the windproof component can block the air inlet and outlet. While heating the inside, the holes can be blocked, and then the internal heating process can begin. Dehumidification ensures that the inside is dry. After dehumidification is completed, the baffle is opened to allow air exchange. The heating and dehumidification operation is carried out according to the temperature and humidity detector. Dehumidification is performed when the humidity is too high. The intermittent operation ensures normal use of the equipment.

[0012] Furthermore, the limiting seat and the housing are fixedly connected, the baffle is engaged inside the limiting seat and slidably connected with the limiting seat, multiple teeth are evenly spaced, the teeth are meshed with gears, one end of the rotating shaft is rotatably connected to the support seat through a bearing, and the other end of the rotating shaft is fixedly connected to the output end of the motor.

[0013] By adopting the above technical solution, the motor drives the gear to rotate, so that the gear and teeth mesh and slide the baffle along the limit seat, thereby blocking the air inlet and outlet.

[0014] In summary, the beneficial technical effects of this utility model are as follows:

[0015] It employs an air inlet base, an air outlet base, a heater, and a wind deflector. The heater heats the interior, and the air inlet and outlet components work together to accelerate the removal of heat from the inside of the chamber, achieving dehumidification. At the same time, two sets of fans can improve the heat dissipation effect inside, ensuring normal ventilation and cooling. The structure is designed at the bottom of the chamber to prevent rainwater from entering the chamber. Wind deflectors are added on both sides of the air inlet and outlet. When working with the heater, the holes are covered to improve the internal humidity control. After dehumidification, the deflectors can be opened for normal heat dissipation during normal use, resulting in convenient heat dissipation. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the three-dimensional structure of the box body of this utility model;

[0018] Figure 3 This is a cross-sectional structural diagram of the present invention;

[0019] Figure 4 This is a three-dimensional structural diagram of the windshield component of this utility model.

[0020] In the diagram, 1. Housing; 2. Air inlet seat; 3. Air inlet fan; 4. Air inlet hole; 5. Air inlet dust filter; 6. Air outlet seat; 7. Air outlet fan; 8. Air outlet hole; 9. Air outlet dust filter; 10. Heater; 11. Temperature and humidity detector; 12. Intelligent thermal balance device; 13. Sealing door; 14. Control panel; 15. Windproof assembly; 151. Limit seat; 152. Baffle; 153. Gear; 154. Support seat; 155. Rotating shaft; 156. Gear; 157. Motor. Detailed Implementation

[0021] The present invention will be further described in detail below with reference to the accompanying drawings.

[0022] Reference Figure 1-4The intelligent thermal balancing equipment includes a housing 1. An air inlet seat 2 is fixedly connected inside the housing 1. An air inlet fan 3 is installed inside the air inlet seat 2. An air inlet hole 4 is reserved on one side of the air inlet seat 2. An air inlet dustproof net 5 is fixedly connected to the other side of the air inlet seat 2. An air outlet seat 6 is fixedly connected to the outside of the housing 1. An air outlet fan 7 is installed inside the air outlet seat 6. An air outlet hole 8 is reserved on one side of the air outlet seat 6. An air outlet dustproof net 9 is fixedly connected to the other side of the air outlet seat 6. A heater 10, a temperature and humidity detector 11, and an intelligent thermal balancing device 12 are fixedly connected to the inside of the housing 1. A sealing door 13 is rotatably connected to the outside of the housing 1 via a hinge. A control panel 14 is fixedly connected to the outside of the sealing door 13. A windbreak assembly 15 is installed inside the housing 1. A similar windbreak assembly is installed on the outside of the housing 1. Component 15 adds two sets of fan structures, one for air intake and one for air exhaust, to the bottom of the housing 1. These two fans are combined into a single air duct structure, which can accelerate the efficiency of internal heat dissipation. At the same time, its placement at the bottom can prevent water from entering from the outside and ensure the stable operation of the heat dissipation structure. In addition, a heater 10 and a temperature and humidity detector 11 are added inside to heat the interior and prevent the corrosion of the internal components of the housing 1 by humid climate. The wind baffle component 15 can block the air intake hole 4 and the air exhaust hole 8. While heating the interior, the holes can be blocked. Then, the internal heating and dehumidification are carried out to ensure that the interior is dry. After dehumidification is completed, the baffle 152 is opened to allow air exchange. The heating and dehumidification operation is operated according to the temperature and humidity detector 11. Dehumidification is performed when the humidity is too high. The operation is intermittent to ensure normal use of the equipment.

[0023] like Figure 1-4 As shown, the windshield assembly 15 includes a limiting seat 151, a baffle 152, teeth 153, a support seat 154, a rotating shaft 155, a gear 156, and a motor 157. The baffle 152 is installed inside the limiting seat 151, and teeth 153 are fixedly connected to the outside of the baffle 152. The support seat 154 is fixedly connected to the outside of the baffle 152. The rotating shaft 155 is installed inside the support seat 154, and gear 156 is fixedly connected to the outside of the rotating shaft 155. The motor 157 is fixedly connected to the outside of the support seat 154. The limiting seat 151 is fixedly connected to the housing 1. The baffle 152 is engaged inside the limiting seat 151 and is slidably connected to the limiting seat 151. Multiple teeth 153 are evenly spaced and mesh with gear 156. One end of the rotating shaft 155 is rotatably connected to the support seat 154 through a bearing, and the other end of the rotating shaft 155 is fixedly connected to the output end of the motor 157.

[0024] The implementation principle of this embodiment is as follows: When the intelligent thermal balancing device 12 inside the housing 1 is running, it ensures normal heat dissipation inside. Through the cooperation of the intake fan 3 and the exhaust fan 7, air is drawn in from one side and exhausted from the housing 1 from the other side, which can accelerate the internal heat dissipation efficiency. At the same time, when the humidity inside the housing 1 is too high, the heater 10 is started, and the motor 157 is started, which drives the gear 156 and teeth 153 to mesh, so that the baffle 152 slides inside the limit seat 151, blocking the air inlet 4 and the air outlet 8. The inside is heated and dehumidified. After the dehumidification is completed, the baffle 152 is opened, and then heat dissipation treatment begins. The internal dehumidification operation extends the service life of the internal equipment.

[0025] The embodiments described herein are preferred embodiments of this utility model and are not intended to limit the scope of protection of this utility model. Therefore, all equivalent changes made to the structure, shape, and principle of this utility model should be included within the scope of protection of this utility model.

Claims

1. A smart balancing device for a heat pipe network, comprising a housing (1), characterized in that: An air inlet seat (2) is fixedly connected inside the housing (1). An air intake fan (3) is installed inside the air inlet seat (2). An air inlet hole (4) is reserved on one side of the outer side of the air inlet seat (2). An air inlet dustproof net (5) is fixedly connected to the other side of the outer side of the air inlet seat (2). An air outlet seat (6) is fixedly connected to the outer side of the housing (1). An air outlet fan (7) is installed inside the air outlet seat (6). An air outlet hole (8) is reserved on one side of the outer side of the air outlet seat (6). An air outlet dustproof net (9) is fixedly connected to the other side of the outer side of the air outlet seat (6).

2. The intelligent balancing device for thermal pipelines according to claim 1, characterized in that: A heater (10), a temperature and humidity detector (11), and an intelligent thermal balance device (12) are fixedly connected to the inside of the box (1). A sealing door (13) is rotatably connected to the outside of the box (1) via a hinge. A control panel (14) is fixedly connected to the outside of the sealing door (13). A windproof assembly (15) is installed inside the box (1), and the same windproof assembly (15) is installed on the outside of the box (1).

3. The intelligent balancing device for thermal pipelines according to claim 2, characterized in that: The windshield assembly (15) includes a limiting seat (151), a baffle (152), a tooth (153), a support seat (154), a rotating shaft (155), a gear (156), and a motor (157). The limiting seat (151) is equipped with a baffle (152). A tooth (153) is fixedly connected to the outside of the baffle (152). A support seat (154) is fixedly connected to the outside of the baffle (152). A rotating shaft (155) is installed inside the support seat (154). A gear (156) is fixedly connected to the outside of the rotating shaft (155). A motor (157) is fixedly connected to the outside of the support seat (154).

4. The intelligent balancing device for thermal pipelines according to claim 3, characterized in that: The limiting seat (151) and the housing (1) are fixedly connected. The baffle (152) is engaged inside the limiting seat (151) and is slidably connected to the limiting seat (151). Multiple teeth (153) are evenly spaced. The teeth (153) are meshed with the gear (156). One end of the rotating shaft (155) is rotatably connected to the support seat (154) through a bearing. The other end of the rotating shaft (155) is fixedly connected to the output end of the motor (157).