KR101151691B1 - An internal circulation recombination energy heating and cooling device - Google Patents

Abstract

It is a kind of internal circulation combined energy heating and cooling technology and apparatus, and relates to an energy-saving heating and cooling equipment. Specifically, the present invention relates to a general apparatus for supplying heating, cooling, and domestic hot water using a kind of circulating water source or solar heat pump. Exhaust valves 14 and exhaust valves 19 are installed at the upper ends of the condenser 13 and the evaporator 20, respectively, and the hot water outlet and the lower end of the condenser are connected to each other. It is connected to each other through the directional valve and the bottom of the condenser, the water temperature sensor is installed in the condenser 13, the cold water temperature sensor 21 is installed in the evaporator and the compressor temperature sensor is installed in the compressor. The present invention has a simple structure, uniform water temperature in the water tank, and water in the condenser is not easily frozen, thereby greatly extending the service life of the product.

Description

Internal circulation composite energy heating and cooling technology and apparatus {AN INTERNAL CIRCULATION RECOMBINATION ENERGY HEATING AND COOLING DEVICE}

The present invention relates to a kind of high-efficiency, energy-saving heating and cooling equipment, and more particularly, to a general apparatus for heating, de-cooling and supplying domestic hot water using a kind of circulating water source or solar energy heat pump.

Heat pump water heater is a system for producing high temperature hot water using an external circulating water source or a single energy source of air as a low temperature heat source. This device is an energy-saving hot water product, and it has begun to replace the existing electric and gas boilers as it gradually enters the household era. However, the heat pump water heater is greatly influenced by the outside temperature, so if the outside temperature is below 0 ℃ or lower, the evaporator of the heat pump water heater loses its shape, affecting the heat conduction effect, and the heat production amount and energy efficiency of the heat pump water heater are drastically decreased. Serious impact on the normal use of the customer.

An object of the present invention is to provide a kind of internal circulation combined energy heating and cooling technology and apparatus, the structure is simple, high thermal efficiency, excellent energy saving effect, there is no freezing of water in the condenser, and the system does not need defrosting, the service life of the product To extend.

In order to solve the problems existing in the existing technology, the present invention adopts the following technical solutions. Solar water heater inlet (1), cold water inlet (2), hot water outlet (3), heating water circulation (4), heating water outlet (5), solar water heater outlet (6), circulating water pump (7), heating recovery Pump (8), capillary (9), jet capillary (10), solenoid valve (11), water temperature sensor (12), condenser (13), exhaust valve (14), directional valve (15), fan (16), Compressor 17, compressor temperature sensor 18, exhaust valve 19, evaporator 20, cold water sensor 21, drain valve 22, flow control switch 23, water filter 24, three directions It consists of the inside 25 of directional valves, and the internal circulating water source pipe 26.

The solar water heater inlet 1 is connected to each other through the lower end of the condenser 13 and the evaporator 20 and the cold water inlet 2 is connected to each other through the top of the flow control switch 23 and the condenser 13 and the evaporator 20. Connected to the upper end of the condenser 13 and the evaporator 20, the exhaust valve 14 and the exhaust valve 19 is installed, respectively, the hot water outlet 3 and the lower end of the condenser 13 are connected to each other and the heat recovery The sphere 4 is connected to each other through the water filter 24, the three-way directional valve 25 and the lower end of the condenser 13, the heating outlet (5), solar water heater outlet (6) are all condenser (13) Is connected to the lower end of the flow control valve 23 is installed at the top of the flow control valve 23 is installed between the flow control switch 23 and the condenser 13 using a heating return pipe (8) and the circulation water pump Install 7; The upper end of the condenser 13 is connected to each other through one of the four-way valve 15 and the compressor 17, the fan 16 is installed on the left side of the compressor 17, the other side of the compressor 17 and the evaporator 20 ) Are connected to each other, the top of the evaporator 20 is connected to each other through the four-way valve 15, the solenoid valve 11 and the bottom of the condenser 13 and the top of the evaporator 20 is the condenser 13 Directly connected with the bottom of the evaporator 20 and the bottom of the condenser 13 are connected to each other; The water temperature sensor 12 is installed in the condenser 13, the cold water temperature sensor 21 is installed in the evaporator 20, and the compressor temperature sensor 18 is installed in the compressor 17. The cold water inlet 2 supplies insufficient water to the condenser 13, and some circulating water sources of the condenser 13 enter the evaporator 20 through the internal circulation pipe 26, and the refrigerant in the evaporator 20 receives the amount of heat. After absorbing, it enters the compressor (17), and after heating up under pressure, enters the condenser (13) to release heat and heat the water in the condenser. Some of the heated hot water enters the heating (cooling) end via the heating outlet 5, and another part of the hot water enters the evaporator 20 again through the internal circulation water pipe 26 and repeats such a circulation. The water temperature of the system is constantly rising. Cold water at the consumption rate flow rate generated after exchanging heat in the evaporator 20 returns to the condenser 13 via the heating recovery pipe 8.

The present invention adopts the internal circulation water source as the heat source of the evaporator or solar hot water as the supplemental heat source of the evaporator to form a complex heat source. In the present invention, the entire apparatus is installed indoors and the water in the water tank undergoes heat exchange through the water circulation system of the circulating water pump and the condenser of the defrosting circulation system. The heat exchanger of the condenser is a tubular heat exchanger, in which a coolant flows through the tube side and water flows through the cell side to form a complete back exchange between them. The system of the present invention is simple in configuration and the refrigerant cooling system consists of a compressor (17), a four-way valve (15), a solenoid valve (11), a condenser (13), an evaporator (20), and the performance of a heat pump heating facility. And the range of use has been greatly improved to maintain high energy efficiency and outlet temperature even at very low outside temperatures. The present invention adopts a circulating water pump (7) to gradually increase the water temperature to enhance the heat exchange effect and to prevent water temperature irregularities in the water tank. Since the whole device is installed indoors, even at low ambient temperature (below 0 ℃), the condenser water can be recovered to the water tank under the influence of atmospheric pressure.When the hot water temperature reaches the set temperature, the machine stops and It freezes to prevent the tubular condenser from bursting. The evaporator adopts a tube coil so that there is no image formation even at low outside temperature (below 0 ℃), so that the heat transfer effect on the machine operation is improved, and the heat removal amount and energy efficiency are effectively improved. The present invention is to increase the service life of the compressor by adding a fan cooling system and one compressor ejection capillary to the heat pump heating system to eject the liquid when the exhaust temperature of the compressor is too high to effectively reduce the exhaust temperature of the compressor for a long time Operation increases the exhaust temperature to prevent shortening the service life. The electronic temperature controller automatically detects the water temperature, and when the water temperature reaches the set value, the compressor is stopped and the water pump automatically controls the water temperature by extracting a sample of the water temperature through the operation of the control pump and the tube freezes at the low outside temperature. Prevent it. The present invention has a simple structure, high thermal efficiency, excellent energy saving effect, and condenser water does not freeze and does not need defrosting of the system to extend the service life of the product; according to the present invention, the heat pump could be used only in high temperature areas. Beyond the limits, the range of use of heat pump heating facilities has been extended. In addition, by changing the direction of the coolant flow through the four-way valve, the customer satisfies the demand for summer cooling and winter heating, greatly improving the rationality of its use.

An object of the present invention is to provide a kind of internal circulation combined energy heating and cooling technology and apparatus, the structure is simple, high thermal efficiency, excellent energy saving effect, there is no freezing of water in the condenser, and the system does not need defrosting, the service life of the product Can be extended.

1 is a structural diagram of the present invention.

The specific embodiment illustrated in FIG. 1 is a solar water heater inlet (1), cold water inlet (2), hot water outlet (3), heating recovery port (4), heating outlet (5), solar water heater outlet (6), circulation Water pump (7), heating return pipe (8), capillary pipe (9), jet capillary pipe (10), solenoid valve (11), water temperature sensor (12), condenser (13), exhaust valve (14), four-way valve 15, fan 16, compressor 17, compressor temperature sensor 18, exhaust valve 19, evaporator 20, cold water sensor 21, drain valve 22, flow control switch 23 And a water filter (24), a three-way valve (25), and an internal circulation water source pipe (26); the solar water heater inlet (1) is connected to each other through a water pipe, a lower end of the condenser (13) and an evaporator (20). The cold water inlet 2 is connected to each other through the flow control switch 23 and the upper end of the condenser 13 and the evaporator 20 and the exhaust valve 14 is connected to the upper end of the condenser 13 and the evaporator 20, respectively. And exhaust valve (19), hot water outlet (3) and condenser (13) ) And the bottom of the heating outlet (4) is connected to each other through the water filter 24, the three-way directional valve 25 and the bottom of the condenser 13, the heating outlet (5), solar water heater outlet ( 6) are all connected to the lower end of the condenser 13, the drain valve 22 is installed on the upper portion of the flow control switch 23, the heating recovery pipe (8) between the flow control switch 23 and the condenser (13) The circulating water pump 7 is installed; the upper portion of the condenser 13 is connected to each other by the four-way valve 15 and the compressor 17, and the fan 16 is located on the left side of the compressor 17; The other side of the compressor 17 and the top of the evaporator 20 are connected to each other and the top of the evaporator 20 is connected to each other through the four-way valve 15, the solenoid valve 11 and the bottom of the condenser 13 The upper part of the evaporator 20 is directly connected with the condenser 13 and the lower part of the evaporator 20 and the lower part of the condenser 13 are connected with each other; Compressors (13), install the temperature sensor 12 and has installed a cold water temperature sensor 21, evaporator 20 and the compressor (17), the installation of the compressor temperature sensor (18). A jet capillary 10 is installed between the solenoid valve 11 and the four-way valve 15, and a capillary tube 9 is installed between the condenser 13 and the lower part of the evaporator 20. The cold water inlet 2 supplies insufficient water to the condenser 13 and some internal circulation water source of the condenser 13 enters the evaporator 20 through the internal circulation pipe 26.

As a working principle of the specific embodiment, the cold water inlet 2 supplies insufficient water to the condenser 13, and some internal circulation water sources of the condenser 13 enter the evaporator 20 through the internal circulation pipe 26. After the refrigerant in the evaporator 20 absorbs the heat amount, the refrigerant enters the compressor 17, and after the pressure increase and temperature increase, enters the condenser 13 and releases the heat amount to heat the water in the condenser. Some of the heated hot water enters the heating (defrosting) end via the heating outlet 5, and another part of the hot water enters the evaporator 20 again through the internal circulation pipe 26 and repeats this circulation. The water temperature of the system is constantly rising. The evaporator 20 returns the cold water at the consumption rate flow rate generated after the heat exchange to the condenser 13 via the heating recovery pipe 8. In order to further increase the water temperature to lower energy consumption, the device introduces a solar inlet (1) to enter the solar hot water into the evaporator 20 to increase the heat exchange effect of the evaporator 20 to increase the combined energy heat source and internal circulation hot water. Together, they form a complex energy source. The system may use a single heat source as an internal circulation water source, or may form a complex heat source by connecting solar hot water to the internal circulation water source.

1: water heater inlet 2: cold water inlet
3: hot water outlet 4: heating recovery port
5: heating outlet 6: solar water heater outlet
7: Circulating water pump 8: Heating return pipe
9: capillary 10: eruption capillary
11: solenoid valve 12: water temperature sensor
13: condenser 14: exhaust valve
15: 4-way valve 16: fan
17: compressor 18: compressor temperature sensor
19: exhaust valve 20: evaporator
21: cold water sensor 22: drain valve
23: flow control switch 24: water filter
25: 3-way directional valve 26: internal circulating water source pipe

Claims (2)

It is a kind of internal circulation combined energy heating and cooling technology and device, characterized by solar water heater inlet (1), cold water inlet (2), hot water outlet (3), heating recovery port (4), heating outlet (5), solar hot water outlet ( 6), circulating water pump (7), heating return pipe (8), solenoid valve (11), water temperature sensor (12), condenser (13), exhaust valve (14), four-way valve (15), fan (16) ), Compressor 17, compressor temperature sensor 18, exhaust valve 19, evaporator 20, cold water sensor 21, drain valve 22, flow control switch 23, water filter 24, It consists of a three-way directional valve (25), the inner circulation water source pipe (26) and the solar water heater inlet (1) is connected to each other through the inner circulation water source pipe (26) and the lower end of the condenser (13) and the evaporator (20) The cold water inlet 2 is connected to each other through the flow control switch 23, the top of the condenser 13 and the evaporator 20, and the exhaust valve 14 and the exhaust at the top connection of the condenser 13 and the evaporator 20, respectively. The valve (19) is installed and the hot water outlet (3) The bottom of the unit 13 is connected to each other and the heating and recovery port 4 is connected to each other through the water filter 24, the three-way direction switching valve 25 and the bottom of the condenser 13, the heating outlet (5), solar heat The water heater extractor 6 is all connected to the lower end of the condenser 13, the drain valve 22 is installed on the upper portion of the flow control switch 23, the heating recovery pipe between the flow control switch 23 and the condenser 13 (8) to connect the circulating water pump (7); the upper portion of the condenser (13) is a four-way valve (15) and one side of the compressor (17) are connected to each other and the fan (16) to the left of the compressor (17) ) And the other side of the compressor 17 and the upper part of the evaporator 20 are connected to each other, and the upper part of the evaporator 20 is connected through the four-way valve 15, the solenoid valve 11 and the lower end of the condenser 13. Connected to each other and the upper part of the evaporator 20 is directly connected with the condenser 13 and the lower part of the evaporator 20 and the lower part of the condenser 13 are connected to each other; Internal cycle combined energy heating, characterized in that the water temperature sensor 12 is installed in the air conditioner 13, the cold water temperature sensor 21 is installed in the evaporator 20, and the compressor temperature sensor 18 is installed in the compressor 17. Defrosting technology and apparatus, The method according to claim 1, wherein the discharge capillary 10 is installed between the solenoid valve 11 and the four-way valve 15, and the capillary tube 9 is installed between the condenser 13 and the lower end of the evaporator 20. Internal circulation combined energy heating and cooling technology and apparatus characterized by the above.

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