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CN-224230110-U - Multi-energy fusion thermal energy station

CN224230110UCN 224230110 UCN224230110 UCN 224230110UCN-224230110-U

Abstract

The utility model provides a multipotency integration heating power station, includes the base plate, install heat storage water tank, water supply module, block terminal and monitor on the base plate, the heat storage water tank is bilayer structure, including outer box and interior box, water supply module is the multiunit, water supply module still includes cold water supply module and hot water supply module, one side of outer box still sets up intake pipe and outlet duct, block terminal and monitor are installed on the base plate through first support and second support respectively, can shunt the heating to cold water through water supply module, not only improved efficiency to this in-process can in time supply water pressure and monitor cold water, guaranteed the stability of heat pump work, secondly when whole energy station work, the heat storage water tank can not only monitor the inside heat source in real time, and when heat pump efficiency reduces or can not satisfy, can supply or replace the heat pump through heating coil, avoided the heat pump to damage or the unable problem of working and the heat unstable that arouses of single heat pump.

Inventors

  • TANG ZHIJUN
  • TANG WENTIAN
  • CHEN MEIHONG
  • TANG RONGHUA
  • ZHANG YUANMING
  • HUANG KUO
  • DU SHENGHUA
  • MA WANJUN

Assignees

  • 骊阳(广东)节能科技股份有限公司

Dates

Publication Date
20260512
Application Date
20250529

Claims (8)

  1. 1. The utility model provides a multipotency fusion thermal energy station, includes base plate (1), install heat storage water tank (2), water supply subassembly (3), block terminal (4) and monitor (5) on base plate (1), heat storage water tank (2) are bilayer structure, including outer box (20) and interior box (21), still set up heat preservation (22) between outer box (20) and interior box (21), water supply subassembly (3) are the multiunit, water supply subassembly (3) still include cold water supply subassembly (30) and hot water supply subassembly (31), just the input and the external water pump of cold water supply subassembly (30) are connected through trunk line (6), cold water supply subassembly (30) are connected with hot water supply subassembly (31), just hot water supply subassembly (31) are connected with interior box (21), one side of outer box (20) still sets up intake pipe (7) and outlet duct (8), block terminal (4) and monitor (5) are installed on base plate (1) through first support (9) and second support respectively.
  2. 2. The multi-energy fusion thermal energy station of claim 1, wherein the heat insulation layer (22) between the outer box body (20) and the inner box body (21) is made of polyurethane foam, the heating coil (11) is further wrapped outside the inner box body (21), a water temperature sensor (12) and a pressure sensor (13) are further arranged in the inner box body (21), and the water temperature sensor (12) and the pressure sensor (13) are respectively connected with the monitor (5) through signals.
  3. 3. The multifunctional fusion thermal energy station according to claim 1 or 2, wherein a liquid level pipe (14) is further arranged outside the outer box body (20), two ends of the liquid level pipe (14) are communicated with the inner box body (21), a water outlet valve (15) is further arranged at the bottom of the outer box body (20), and the air inlet pipe (7) and the air outlet pipe (8) are respectively connected with two ends of the heating coil pipe (11).
  4. 4. A multi-energy fusion thermal power station according to claim 1 or 2, wherein a detachable sealing cover (16) and a pressure release valve (17) are further arranged at the top of the outer box body (20), the detachable sealing cover (16) is positioned in the middle of the outer box body (20), and corner plates (18) are further fixedly arranged at four corners of the outer box body (20).
  5. 5. The multi-energy fusion thermal energy station of claim 1, wherein the base plate (1) is of a frame structure, and migration plates (19) are arranged on two sides of the base plate (1), and round holes are formed in the migration plates (19).
  6. 6. The multi-energy fusion thermal energy station according to claim 1, wherein a water meter (23) and a pressure meter (24) are further arranged on the main pipeline (6) in sequence.
  7. 7. The multi-energy fusion thermal energy station of claim 1, wherein the cold water supply assembly (30) comprises a first branch pipe (301), a water supplementing valve (302), a check valve (303), a water quality monitor (304) and a pressure reducing valve (305), the output end of the first branch pipe (301) is connected with the output end of the main pipe (6), the water supplementing valve (302), the check valve (303), the water quality monitor (304) and the pressure reducing valve (305) are sequentially installed on the first branch pipe (301), and the output end of the first branch pipe (301) is further connected with the hot water supply assembly (31).
  8. 8. The multi-energy fusion thermal energy station of claim 7, wherein the hot water supply assembly (31) comprises a second branch pipe (310), a heat pump (311), an exhaust valve (312) and an ultraviolet sterilizer (313), the input end of the second branch pipe (310) is connected with the output end of the first branch pipe (301), the output end of the second branch pipe (310) is connected with the inner box body (21), the heat pump (311), the exhaust valve (312) and the ultraviolet sterilizer (313) are sequentially arranged on the second branch pipe (310), and the heat pump (311) is fixedly arranged on the base plate (1).

Description

Multi-energy fusion thermal energy station Technical Field The utility model relates to the field of heat supply, in particular to a multifunctional fusion thermal energy station. Background Thermal energy stations, also known as heating stations or thermal power stations, are facilities specifically designed to produce, convert, and distribute thermal energy. These sites may serve residential areas, commercial buildings, industrial facilities, institutional facilities, etc., providing hot water or steam for heating, hot water supply, and heating needs in certain industrial processes. However, the existing thermal energy station generally adopts a gas boiler, and although the gas boiler has the advantages of high efficiency, cleanness and the like, the gas boiler has some problems and challenges in the actual use process, including the problems that the efficiency of the gas boiler can be obviously reduced when the load is operated, the heat is unstable, the heat efficiency is low, and the emission pollution and the like. Disclosure of utility model The utility model mainly solves the problem that the heat efficiency of the traditional thermal energy station is lower due to single heat source of the thermal energy station. The utility model adopts the following technical scheme: The utility model provides a multipotency fusion heating power energy station, includes the base plate, install heat storage water tank, water supply module, block terminal and monitor on the base plate, the heat storage water tank is bilayer structure, including outer box and interior box, still set up the heat preservation between outer box and the interior box, water supply module is the multiunit, water supply module still includes cold water supply module and hot water supply module, just cold water supply module's input passes through the trunk line with external water pump and is connected, cold water supply module is connected with hot water supply module, just hot water supply module is connected with interior box, one side of outer box still sets up intake pipe and outlet duct, block terminal and monitor are installed on the base plate through first support and second support respectively. Preferably, the heat preservation material between outer box and the interior box is polyurethane foam, the outside of interior box still wraps up heating coil, still set up temperature sensor and pressure sensor in the interior box, temperature sensor and pressure sensor respectively with monitor signal connection. Preferably, the outside of outer box still sets up the liquid level pipe, the both ends of liquid level pipe all communicate with interior box, the bottom of outer box sets up the water outlet valve, intake pipe and outlet duct are connected with heating coil's both ends respectively. Preferably, the top of the outer box body is further provided with a detachable sealing cover and a pressure release valve, the detachable sealing cover is positioned in the middle of the outer box body, and four corners of the outer box body are further fixedly provided with corner plates. Preferably, the substrate is of a frame structure, and the two sides of the substrate are provided with migration plates, and round holes are formed in the migration plates. Preferably, a water meter and a pressure gauge are further arranged on the main pipeline in sequence. Preferably, the cold water supply assembly comprises a first branch pipe, a water supplementing valve, a check valve, a water quality monitor and a pressure reducing valve, wherein the output end of the first branch pipe is connected with the output end of the main pipe, the water supplementing valve, the check valve, the water quality monitor and the pressure reducing valve are sequentially arranged on the first branch pipe, and the output end of the first branch pipe is further connected with the hot water supply assembly. Preferably, the hot water supply assembly comprises a second branch pipe, a heat pump, an exhaust valve and an ultraviolet sterilizer, wherein the input end of the second branch pipe is connected with the output end of the first branch pipe, the output end of the second branch pipe is connected with the heat storage water tank, the heat pump, the exhaust valve and the ultraviolet sterilizer are further sequentially installed on the second branch pipe, and the heat pump is fixedly installed on the substrate. The utility model has the beneficial effects that: The utility model can carry out split-flow heating on cold water through the water supply assembly, thereby improving the efficiency, and can timely supplement water pressure and monitor the cold water through the water supplementing valve and the water quality detector in the process, thereby ensuring the working stability of the heat pump. And secondly, the utility model has high integration degree, simpler maintenance and installation and lower cost. Drawings FIG. 1 is a schematic three-dimensional structure of