CN217004952U - Double-water-tank linkage control solar water heating system - Google Patents
Double-water-tank linkage control solar water heating system Download PDFInfo
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- CN217004952U CN217004952U CN202220601503.4U CN202220601503U CN217004952U CN 217004952 U CN217004952 U CN 217004952U CN 202220601503 U CN202220601503 U CN 202220601503U CN 217004952 U CN217004952 U CN 217004952U
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Abstract
The utility model discloses a double-water-tank linkage control solar water heating system which comprises a water tank of a hot water system, a backflow cavity and a temperature sensing assembly, wherein a hot water outlet pipe at the bottom end of the water tank of the hot water system is communicated with a connecting screw base at the right side of the backflow cavity; the backward flow chamber is used for accomodating the water after the tap goes out water, and the user is whether to the temperature heating of backward flow intracavity through the electric wand according to backward flow intracavity portion temperature selectivity for reduce the user to cold water exhaust's waste rate when using the warm water, and the hot water discharge in the hot water system water tank is to backward flow chamber back electric wand shutdown, saves the water resource when saving the electric energy.
Description
Technical Field
The utility model belongs to the technical field of solar equipment, and particularly relates to a double-water-tank linkage control solar water heating system.
Background
The solar water heating system has the advantages of energy conservation and environmental protection when in use, and is widely applied to household water, the solar water heating system integrates the electric heating function for some solar water heaters in order to ensure the hot water consumption during household water consumption, and the electric heating can increase the consumption of electric quantity according to the continuous heating of the water temperature in the water tank because of excessive water in the water tank.
Therefore, in the prior art, in order to prevent the solar water heating system integrated with electric heating from continuously heating water in the water tank to generate excessive consumption of electric quantity, the double-water-tank linkage control solar water heating system with the publication number of 'CN 203710184U' comprises a first heat-preservation water tank, a second heat-preservation water tank, a first electromagnetic valve, a second electromagnetic valve and a booster pump driving circuit, wherein the first electromagnetic valve, the second electromagnetic valve and the booster pump driving circuit are respectively connected with a controller; the water level and water temperature signals are sent to the controller for real-time control by the temperature sensor and the water level monitoring device which are arranged in the water tank.
For the double-water-tank linkage control solar water heating system, double-water-tank linkage control is adopted to utilize solar energy, cold water and hot water in the two water tanks are fully mixed to keep the water temperature stable, the water storage capacity of the water tanks is increased by the two water tanks, and when the water temperature in the first heat-preservation water tank does not meet the requirement preset in the controller, the second heat-preservation water tank is started to continue heating, so that the water in the water tanks is quickly heated to the preset value; the temperature sensor and the water level monitoring device are arranged in the water tank, so that the water temperature in the water tank is always kept in a set temperature range under the condition of insufficient solar energy, the water temperature in the water tank can meet the use requirement, but the problem of backwater generated by a waterway after waterproof use is solved, the backwater is mixed with cold water during backwater, the water temperature is reduced, a user cannot detect the backwater temperature, and the water temperature can be tested by hands during water discharge, so that a large amount of water resource waste is caused;
therefore, the utility model provides the double-water-tank linkage control solar water heating system for detecting the temperature of return water through the temperature sensor in the return water pipeline.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a double-water-tank linkage control solar water heating system to solve the problems in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme:
a double-water-tank linkage control solar water heating system comprises a water tank of a hot water system, a backflow cavity and a temperature sensing assembly, wherein a hot water outlet pipe at the bottom end of the water tank of the hot water system is communicated with a connecting screw seat at the right side of the backflow cavity, an electric heating assembly is arranged in a shell at the top end of the backflow cavity, and an electric heating rod on the electric heating assembly is arranged in the backflow cavity;
the temperature sensing assembly comprises a temperature sensing sensor arranged in the backflow cavity, a base connected with the temperature sensing sensor and matched with a screw hole in the backflow cavity, and power storage electronics connected with the temperature sensing sensor and arranged inside the base, wherein the temperature sensing sensor is arranged on the left side of the backflow cavity and connected with the outer edge of the middle of the screw base, a digital display screen is embedded on the outer wall of the backflow cavity, and the digital display screen is connected with the temperature sensing sensor.
Furthermore, the input end of the electric heating rod is connected with an independent switch, and the independent switch is arranged at the top end of the shell.
The user can be according to the needs of self use and select whether to open the electric heat stick through independent switch, is used for the water heating of the inside backward flow of backward flow chamber for using through the electric heat stick.
Furthermore, a sealing gasket is arranged between the outer edge of the base and the screw hole.
The base is matched with the screw hole, and the screw hole is in threaded connection with the temperature sensor and is used for facilitating disassembly and maintenance of the temperature sensor.
Furthermore, the temperature sensor is arranged at the top end of the detection rod in the middle of the base.
The temperature sensor avoids the phenomenon that the traditional temperature sensor is embedded on the inner wall of the backflow cavity, and the water temperature detection data is inaccurate due to water scale covering.
Furthermore, the electric heating rod is connected with the temperature sensor through a button switch, and the button switch is arranged on the outer wall of the backflow cavity.
The processor is connected between the electric heating rod and the temperature sensing sensor and used for connecting a power supply between the electric heating rod and the temperature sensing sensor through the button switch, and when the water temperature detected by the temperature sensing sensor is lower than the set temperature of the controller, the electric heating rod operates to heat the water in the backflow cavity to the set temperature and is used for keeping the water temperature of the backflow in the backflow cavity.
Furthermore, a water tap for outputting hot water is screwed in the water outlet connecting screw base.
The backflow cavity directly supplies water to the faucet, and the problem that water resource waste is caused due to the fact that more cold water needs to be discharged when the faucet is used for hot water is solved.
Compared with the comparison file, the utility model has the technical effects and advantages that:
according to the double-water-tank linkage control solar water heating system, a water tank of a water heating system is communicated with a backflow cavity, an electric heating rod and a temperature sensing assembly are arranged in the backflow cavity, the temperature sensing assembly is in threaded connection with the backflow cavity through a base, and power is independently supplied to a temperature sensing sensor through power storage electronics, so that the temperature sensing sensor and the backflow cavity can be conveniently detached and overhauled according to the using state of the temperature sensing sensor;
the backward flow chamber is used for accomodating the water behind the tap play water, and when needing hot water once more, temperature-sensing sensor is used for surveying the temperature of backward flow intracavity portion, and the temperature demonstration of will surveying is on digital display screen, the user is whether to the temperature heating of backward flow intracavity through the electric heat bar according to backward flow intracavity portion temperature selectivity, a waste rate to cold water discharge when using the warm water for reducing the user, and the hot water discharge in the hot water system water tank is to backward flow chamber back electric heat bar bring to rest, save the water resource when saving the electric energy.
Drawings
FIG. 1 is a schematic view of the structure of the present invention;
FIG. 2 is a main sectional view of a flashback chamber of the present invention;
FIG. 3 is an enlarged sectional view of the temperature sensing assembly of the present invention connected to a reflow chamber.
In the figure: 1. a hot water system tank; 2. a reflux cavity; 3. a temperature sensing assembly; 4. a hot water outlet pipe; 5. a housing; 6. an electrical heating assembly; 7. an electric heating rod; 8. a temperature-sensitive sensor; 9. a screw hole; 10. a base; 11. storage electrons; 12. the water outlet is connected with a screw seat; 13. a digital display screen; 14. an independent switch; 15. a probe rod; 16. a push button switch.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The utility model provides a double-water-tank linkage control solar water heating system as shown in figures 1-3, which comprises a water tank 1 of a water heating system, a backflow cavity 2 and a temperature sensing assembly 3, wherein a hot water outlet pipe 4 at the bottom end of the water tank 1 of the water heating system is communicated with a connecting screw seat at the right side of the backflow cavity 2, an electric heating assembly 6 is arranged in a shell 5 at the top end of the backflow cavity 2, an electric heating rod 7 on the electric heating assembly 6 is arranged in the backflow cavity 2, the input end of the electric heating rod 7 is connected with an independent switch 14, and the independent switch 14 is arranged at the top end of the shell 5. The user can select whether to turn on the electric heating rod 7 through the independent switch 14 according to the use requirement of the user, and the electric heating rod 7 is used for heating the water reflowing in the reflow cavity 2 for use;
the temperature sensing component 3 comprises a temperature sensing sensor 8 arranged in the backflow cavity 2, a base 10 which is connected with the temperature sensing sensor 8 and is matched and screwed with a screw hole 9 on the backflow cavity 2, and an electric power storage electron 11 which is connected with the temperature sensing sensor 8 and is arranged in the base 10, the temperature sensing sensor 8 is arranged at the outer edge of the middle part of a water outlet connection screw base 12 on the left side of the backflow cavity 2, and the temperature sensing sensor 8 is arranged at the top end of a detection rod 15 in the middle part of the base 10. Avoid traditional temperature sensor 8 to inlay and adorn on 2 inner walls of backward flow chamber, easily because of the incrustation scale covers and causes the temperature detection data inaccuracy. A sealing gasket is arranged between the outer edge of the base 10 and the screw hole 9. The base 10 and the screw hole 9 are matched and screwed with the temperature sensor 8, and the temperature sensor 8 is arranged in the backflow cavity 2 and is convenient to disassemble and overhaul. The outer wall of the return cavity 2 is embedded with a digital display screen 13, and the digital display screen 13 is connected with the temperature sensor 8.
The electric heating rod 7 is connected with the temperature sensor 8 through a button switch 16, and the button switch 16 is arranged on the outer wall of the backflow cavity 2. The processor is connected between the electric heating rod 7 and the temperature sensor 8 and is used for connecting a power supply between the electric heating rod 7 and the temperature sensor 8 through the button switch 16, and when the water temperature detected by the temperature sensor 8 is lower than the set temperature of the controller, the electric heating rod 7 operates to heat the water in the backflow cavity 2 to the set temperature and is used for keeping the water temperature of backflow in the backflow cavity 2.
A water tap for outputting hot water is screwed in the water outlet connecting screw seat 12. The backflow cavity 2 directly supplies water to the faucet, and the problem that water resource waste is caused due to the fact that more cold water needs to be discharged when the faucet is used for hot water is solved.
According to the double-water-tank linkage control solar water heating system, a water tank 1 of a water heating system is communicated with a backflow cavity 2, an electric heating rod 7 and a temperature sensing assembly 3 are arranged in the backflow cavity 2, the temperature sensing assembly 3 is in threaded connection with the backflow cavity 2 through a base 10, and power is independently supplied to a temperature sensing sensor 8 through an electric power storage electron 11, so that the temperature sensing sensor 8 and the backflow cavity 2 can be conveniently detached and overhauled according to the using state of the temperature sensing sensor 8;
the backflow cavity 2 is used for containing water after water flows out of a faucet, when hot water needs to be used again, the temperature sensing sensor 8 is used for detecting the water temperature inside the backflow cavity 2 and displaying the detected water temperature on the digital display 13, a user selectively heats the water temperature inside the backflow cavity 2 through the electric heating rod 7 according to the water temperature inside the backflow cavity 2, the processor is connected between the electric heating rod 7 and the temperature sensing sensor 8 and used for connecting a power supply between the electric heating rod 7 and the temperature sensing sensor 8 through the button switch 16, when the water temperature detected by the temperature sensing sensor 8 is lower than the set temperature of the controller, the electric heating rod 7 operates to heat the water inside the backflow cavity 2 to the set temperature and is used for keeping the water temperature of backflow inside the backflow cavity 2, and when the hot water system water tank 1 enters the backflow cavity 2 along with the output of hot water of the faucet, after the temperature sensing sensor 8 detects the water temperature to the proper temperature, the operation of the electric heating rod 7 is stopped, the waste rate of cold water discharge when the user uses warm water is reduced, and the electric heating device has the effect of saving electric energy and water resources.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the utility model.
Claims (6)
1. The utility model provides a two water tank coordinated control solar water heating systems, includes hot water system water tank (1), backward flow chamber (2) and temperature sensing subassembly (3), its characterized in that: a hot water outlet pipe (4) at the bottom end of the water tank (1) of the hot water system is communicated with a connecting screw seat at the right side of the backflow cavity (2), an electric heating assembly (6) is arranged in a shell (5) at the top end of the backflow cavity (2), and an electric heating rod (7) on the electric heating assembly (6) is arranged in the backflow cavity (2);
temperature sensing subassembly (3) including locate temperature sensor (8) in backward flow chamber (2), be connected with temperature sensor (8) and with screw (9) on backward flow chamber (2) cooperation spiro union base (10), be connected with temperature sensor (8) and locate base (10) inside electric power storage electron (11), backward flow chamber (2) left side is located in temperature sensor (8) goes out water and connects screw base (12) middle part outer fringe, it is equipped with digital display screen (13) to inlay on the outer wall in backward flow chamber (2), digital display screen (13) are connected with temperature sensor (8).
2. The double-water-tank linkage control solar water heating system according to claim 1, characterized in that: the input end of the electric heating rod (7) is connected with an independent switch (14), and the independent switch (14) is arranged at the top end of the shell (5).
3. The double-water-tank linkage control solar water heating system according to claim 1, characterized in that: and a sealing gasket is arranged between the outer edge of the base (10) and the screw hole (9).
4. The double-water-tank linkage-control solar water heating system according to claim 1, characterized in that: the temperature sensor (8) is arranged at the top end of a detection rod (15) in the middle of the base (10).
5. The double-water-tank linkage control solar water heating system according to claim 1, characterized in that: the electric heating rod (7) is connected with the temperature sensing sensor (8) through a button switch (16), and the button switch (16) is arranged on the outer wall of the backflow cavity (2).
6. The double-water-tank linkage control solar water heating system according to claim 1, characterized in that: a water tap outputting hot water is screwed in the water outlet connecting screw seat (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220601503.4U CN217004952U (en) | 2022-03-18 | 2022-03-18 | Double-water-tank linkage control solar water heating system |
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CN202220601503.4U CN217004952U (en) | 2022-03-18 | 2022-03-18 | Double-water-tank linkage control solar water heating system |
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CN217004952U true CN217004952U (en) | 2022-07-19 |
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CN202220601503.4U Active CN217004952U (en) | 2022-03-18 | 2022-03-18 | Double-water-tank linkage control solar water heating system |
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