A cold and warm water integrated intelligent control device
By integrating leakage detection and water level monitoring components into the integrated intelligent control device for hot, cold, and hot water, the problems of leakage and abnormal water levels have been solved, thereby improving safety and stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 青海三力新能源技术有限公司
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-26
Smart Images

Figure CN224415400U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of cooling and heating technology, and in particular relates to an integrated intelligent control device for cooling, heating and hot water. Background Technology
[0002] The integrated intelligent hot and cold water control device is a versatile unit that flexibly provides domestic hot water, precisely adapting to seasonal changes and diverse usage scenarios to ensure a comfortable experience and ample hot water supply. This device ingeniously integrates three core functions: cooling, heating, and hot water supply. Through a scientifically designed equipment architecture and an advanced intelligent control system, it achieves efficient energy conversion and utilization.
[0003] Most integrated hot, cold, and hot water intelligent control devices are not well-equipped, often lacking leak detection components and real-time water level monitoring functions. If a leak occurs in the cold or hot water pipe, the system cannot detect it in time, which may cause water accumulation on the floor, damage to decorations, or even short circuits and electrical leaks. When hot water is supplied, if the water level drops abnormally and the system cannot detect it, the heater may continue to burn dry, which not only damages the equipment and shortens its lifespan but may also cause a fire, posing a serious safety risk.
[0004] Therefore, there is a particular need for an integrated intelligent control device for hot, cold, and hot water to solve the above problems. Utility Model Content
[0005] In order to overcome the shortcomings of most integrated intelligent control devices for hot, cold and hot water, such as incomplete function configuration, lack of leakage detection and water level monitoring, which easily lead to various safety hazards, equipment damage and fire risks, this utility model provides an integrated intelligent control device for hot, cold and hot water.
[0006] This utility model is achieved through the following technical approach: an integrated intelligent control device for hot, cold, and hot water, comprising an installation plate, a protective shell, an inner tank, a cover plate, a cold water pipe, a hot water pipe, a connecting pipe, a valve, a connecting pipe, a heater, a control panel, a leakage detection component, and a water level detection component. The protective shell is installed on one side of the installation plate, the inner tank is installed inside the protective shell, and the cover plate is installed on the top of the protective shell, completely covering the inner tank from above. The cold water pipe is installed on the lower side of the protective shell, with one end extending into the water storage area inside the inner tank and the other end extending into the protective shell. Outside the shell, the hot water pipe is installed on the other side of the lower part of the protective shell, with one end extending into the water storage area inside the inner tank and the other end extending to the outside of the protective shell. A connecting pipe is installed at the other end of the cold water pipe and the hot water pipe. The valve is installed between the ends of the two connecting pipes. The connecting pipe is fixed to the upper part of the valve and has threads on its inner wall. The heater is installed on the right inner side wall of the inner tank. The control panel is installed on the lower side of the protective shell. The heater and the control panel are electrically connected. The leakage detection component is located at the lower part of the mounting plate, and the water level detection component is located on the cover plate.
[0007] Optionally, the leak detection assembly includes a sealing shell, a water droplet detection plate, an alarm, and a signal transmitter. The sealing shell is installed on one side of the mounting plate and is located below the protective shell, in close contact with it, forming a relatively enclosed space. The water droplet detection plate is installed at the inner bottom of the sealing shell. Both the cold water pipe and the hot water pipe pass through the sealing shell and the water droplet detection plate. The alarm is installed on the upper side of the protective shell, and the signal transmitter is installed on the right side of the cover plate. The water droplet detection plate, the alarm, and the signal transmitter are all electrically connected to the control panel.
[0008] Optionally, the water level detection assembly includes a water level detector and a detection rod. The water level detector is installed on the left side of the cover plate, and the detection rod is installed at the bottom of the water level detector and extends through the cover plate into the water storage area of the inner tank. Both the water level detector and the detection rod are electrically connected to the control panel.
[0009] Optionally, it also includes a magnesium rod mounted on the protective shell, the electrochemically active portion of which extends into the water storage area of the inner liner.
[0010] Alternatively, the protective shell may be made of high-strength, corrosion-resistant materials.
[0011] Optionally, a transparent glass panel is embedded in the side of the sealing shell away from the mounting plate.
[0012] Beneficial effects: 1. By setting up a leak detection component, it is possible to monitor whether there is a leak in the cold water pipe and hot water pipe in real time. Once a leak is detected, the alarm will sound immediately, and at the same time the signal transmitter will send the information to the user terminal, so that the user can know the equipment failure in time and avoid greater losses caused by leaks, such as equipment damage, ground soaking, etc., thereby improving the safety and reliability of equipment use.
[0013] By setting up a water level detection component, the water level in the inner tank can be monitored accurately in real time and the water level information can be displayed on the control panel. Users can reasonably control the water inflow according to the water level to prevent the water level from being too low and affecting the normal operation of the equipment, thus ensuring the stability and safety of the equipment's water supply.
[0014] 2. By setting up magnesium rods, which undergo an electrochemical reaction and sacrifice themselves to protect the inner liner from water corrosion, this anti-corrosion method does not require an additional power source or a complex control system, and is low in cost and highly effective. Attached Figure Description
[0015] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0016] Figure 2 This is a partial cross-sectional view of the sealing shell component of this utility model.
[0017] Figure 3 This is a three-dimensional structural diagram of the components of this utility model, including cold water pipe, hot water pipe, and connecting pipe.
[0018] Figure 4 This is a partial cross-sectional view of the protective shell and inner liner components of this utility model.
[0019] The meanings of the labels in the attached diagram are as follows: 1. Mounting plate, 2. Protective shell, 3. Inner tank, 4. Cover plate, 5. Cold water pipe, 6. Hot water pipe, 7. Connecting pipe, 8. Valve, 9. Connecting pipe, 10. Magnesium rod, 11. Heater, 12. Control panel, 13. Sealing shell, 14. Water droplet detection plate, 16. Alarm, 17. Water level detector, 18. Detection rod, 19. Signal transmitter. Detailed Implementation
[0020] Example: An integrated intelligent control device for hot, cold, and hot water, such as... Figures 1-4As shown, the system includes a mounting plate 1, a protective shell 2, an inner tank 3, a cover plate 4, a cold water pipe 5, a hot water pipe 6, a connecting pipe 7, a valve 8, a connecting pipe 9, a magnesium rod 10, a heater 11, a control panel 12, a leakage detection component, and a water level detection component. The protective shell 2 is bolted to the front of the mounting plate 1 and is made of high-strength, corrosion-resistant materials, such as 304 stainless steel or polycarbonate, which can effectively resist external impacts, corrosion, and other damage. The inner tank 3 is bolted to the interior space of the protective shell 2. The cover plate 4 is bolted to the top of the protective shell 2 and completely covers the inner tank 3 from above, preventing dust and... Debris and other debris enter the inner tank 3, which also serves a certain insulation function. The cold water pipe 5 is bolted to the lower right side of the protective shell 2, with its upper end extending into the water storage area inside the inner tank 3 and its lower end extending to the outside of the protective shell 2. The hot water pipe 6 is bolted to the lower left side of the protective shell 2, with its upper end also extending into the water storage area inside the inner tank 3 and its lower end extending to the outside of the protective shell 2. The lower ends of the cold water pipe 5 and the hot water pipe 6 are each bolted to a connecting pipe 7. A valve 8 is bolted between the ends of the two connecting pipes 7. By controlling the opening and closing of the valve 8, the flow rate of cold or hot water can be adjusted, thereby... To meet different water usage needs, the connecting pipe 9 is welded to the upper part of the valve 8, and its inner wall is threaded for easy connection to external pipes. The magnesium rod 10 is bolted to the protective shell 2, and its electrochemically active part extends into the water storage area of the inner tank 3. When the magnesium rod 10 is in water, it forms an electrochemical system with the water and the material of the inner tank 3 (usually metal), and an electrochemical reaction occurs. In this process, the magnesium rod 10 acts as the anode and will preferentially lose electrons and be corroded before the material of the inner tank 3. By sacrificing itself, it effectively prevents the inner tank 3 from being corroded by water, thus extending the service life of the inner tank 3. Heater 11 The bolt is connected to the right inner wall of the inner tank 3. It converts electrical energy into heat energy to heat the water in the inner tank 3. The control panel 12 is bolted to the lower front side of the protective shell 2. As an important interface for users to interact with the equipment, users can set and adjust various parameters of the equipment through the control panel 12, such as setting the heating temperature and adjusting the water flow. It can also display the operating status of the equipment, water temperature and other information, so that users can understand the working status of the equipment at any time. The heater 11 is electrically connected to the control panel 12. The leakage detection component is set at the lower part of the mounting plate 1, and the water level detection component is set on the cover plate 4.
[0021] like Figures 1-3As shown, the leak detection assembly includes a sealing shell 13, a water droplet detection plate 14, an alarm 16, and a signal transmitter 19. The sealing shell 13 is bolted to the front of the mounting plate 1 and is located below the protective shell 2, in close contact with it, forming a relatively enclosed space. A transparent glass is embedded in the front of the sealing shell 13 away from the mounting plate 1, allowing easy viewing of whether water has accumulated inside the sealing shell 13. The water droplet detection plate 14 is bolted to the inner bottom of the sealing shell 13. Both the cold water pipe 5 and the hot water pipe 6 pass through the sealing shell 13 and the water droplet detection plate 14. The alarm 16 is bolted to the upper front of the protective shell 2. The signal transmitter 19 is bolted to the right side of the cover plate 4. The water droplet detection plate 14, the alarm 16, and the signal transmitter 19 are all electrically connected to the control panel 12.
[0022] like Figures 2-4 As shown, the water level detection assembly includes a water level detector 17 and a detection rod 18. The water level detector 17 is bolted to the left side of the cover plate 4, and the detection rod 18 is bolted to the bottom of the water level detector 17 and extends through the cover plate 4 into the water storage area of the inner tank 3. The water level detector 17 can monitor the water level in the inner tank 3 in real time through the detection rod 18. Both the water level detector 17 and the detection rod 18 are electrically connected to the control panel 12.
[0023] Under normal circumstances, the inside of the sealed shell 13 remains dry. If the cold water pipe 5 or the hot water pipe 6 leaks, water droplets will fall onto the water droplet detection plate 14. Based on its special electrical characteristics, the water droplet detection plate 14 changes the electrical parameters of its internal circuit when the water droplet comes into contact with it, thereby generating an electrical signal. This electrical signal is quickly transmitted to the control panel 12. After receiving the signal, the control panel 12 immediately activates a dual response mechanism: on the one hand, it quickly controls the alarm 16 to emit a loud alarm sound. The sound is clear and penetrating, which can attract the user's attention in the surrounding environment and remind the user that there may be a water leak in the equipment. On the other hand, it precisely controls the signal transmitter 19 to send the water leak information, including the time of leakage, the approximate location of leakage, and other details, to the user's preset terminal device (such as a mobile phone) via wireless communication. This allows the user to understand the equipment failure situation in a timely manner no matter where they are, so as to take corresponding measures quickly, such as shutting off the water supply or contacting maintenance personnel.
[0024] Under normal circumstances, the inner tank 3 continuously contains an appropriate amount of water to meet daily cooling, heating, and hot water supply needs. The water level detector 17 monitors the water level in the inner tank 3 in real time via the detection rod 18. The detection rod 18 extends into the water storage area of the inner tank 3 and its surface has special conductive or inductive properties, enabling it to accurately sense water level changes. When the water level changes and falls below the safe water level line set by the detection rod 18, the detection rod 18 converts the water level information into an electrical signal and transmits it to the water level detector 17. The water level detector 17 analyzes and processes the received signal before transmitting it to the control panel 12 for adjustment. Upon receiving the signal, screen 12 immediately activates a dual response mechanism: on the one hand, it quickly controls alarm 16 to emit a loud alarm sound, which is different from the water leak alarm sound, so that users can distinguish the type of fault and remind users that there may be an abnormal water level problem in the equipment; on the other hand, it precisely controls signal transmitter 19 to send water level abnormality information, including the current water level height, the time of the abnormality, and other details, to the user's preset terminal device, so that users can understand the situation in time and take corresponding measures, such as checking whether the water inlet valve 8 is normal and checking whether there is a leak, to ensure the safe operation of the equipment.
[0025] In summary, this integrated intelligent control device for hot, cold, and hot water combines multiple functions and boasts advantages such as high efficiency and energy saving, intelligent control, multiple safety protections, and long service life. It fully meets the needs of modern users for comfort, safety, and intelligence, and has good practicality and promotional value.
Claims
1. An integrated intelligent control device for hot and cold water, characterized in that: The system includes a mounting plate (1), a protective shell (2), an inner tank (3), a cover plate (4), a cold water pipe (5), a hot water pipe (6), a connecting pipe (7), a valve (8), a connecting pipe (9), a heater (11), a control panel (12), a leak detection component, and a water level detection component. The protective shell (2) is installed on one side of the mounting plate (1), the inner tank (3) is installed inside the protective shell (2), the cover plate (4) is installed on the top of the protective shell (2) and completely covers the inner tank (3) from above, the cold water pipe (5) is installed on the lower side of the protective shell (2), one end of which extends into the water storage area inside the inner tank (3), and the other end extends to the outside of the protective shell (2), and the hot water pipe (6) is installed... On the other side of the lower part of the protective shell (2), one end extends into the water storage area inside the inner tank (3), and the other end extends to the outside of the protective shell (2). A connecting pipe (7) is installed at the other end of the cold water pipe (5) and the hot water pipe (6). The valve (8) is installed between the ends of the two connecting pipes (7). The connecting pipe (9) is fixed to the upper part of the valve (8) and has threads on its inner wall. The heater (11) is installed on the right inner wall of the inner tank (3). The control panel (12) is installed on the lower side of the protective shell (2). The heater (11) is electrically connected to the control panel (12). The leakage detection component is set at the lower part of the mounting plate (1), and the water level detection component is set on the cover plate (4).
2. The integrated intelligent control device for hot and cold water according to claim 1, characterized in that: The leak detection assembly includes a sealing shell (13), a water droplet detection plate (14), an alarm (16), and a signal transmitter (19). The sealing shell (13) is installed on one side of the mounting plate (1) and is located below the protective shell (2) in close contact with it, forming a relatively enclosed space. The water droplet detection plate (14) is installed at the bottom inner end of the sealing shell (13). The cold water pipe (5) and the hot water pipe (6) both pass through the sealing shell (13) and the water droplet detection plate (14). The alarm (16) is installed on the upper side of the protective shell (2). The signal transmitter (19) is installed on the right side of the cover plate (4). The water droplet detection plate (14), the alarm (16), and the signal transmitter (19) are all electrically connected to the control panel (12).
3. The integrated intelligent control device for hot and cold water according to claim 2, characterized in that: The water level detection assembly includes a water level detector (17) and a detection rod (18). The water level detector (17) is installed on the left side of the cover plate (4), and the detection rod (18) is installed at the bottom of the water level detector (17) and extends through the cover plate (4) to the water storage area of the inner tank (3). Both the water level detector (17) and the detection rod (18) are electrically connected to the control panel (12).
4. The integrated intelligent control device for hot and cold water according to claim 3, characterized in that: It also includes a magnesium rod (10) mounted on the protective shell (2), the electrochemically active portion of which extends into the water storage area of the inner liner (3).
5. The integrated intelligent control device for hot and cold water according to claim 4, characterized in that: The protective shell (2) is made of high-strength, corrosion-resistant materials.
6. The integrated intelligent control device for hot and cold water according to claim 5, characterized in that: A transparent glass is embedded in the side of the sealing shell (13) away from the mounting plate (1).