KR100402296B1 - Advanced heat pump water heater with hot water recycling circuit - Google Patents

Abstract

The present invention separates the condenser in two stages and forms a simple circuit to allow recirculation between the preheat condenser and the water tank so that the temperature of the hot water can be freely adjusted so that an additional heater is required when hot water is required. In addition, even when low temperature is required, it is possible to easily obtain low temperature hot water by only opening and closing the recirculation valve, thereby making it possible to use it for multipurpose.

In addition, the present invention reduces the consumption of electrical energy to improve the efficiency of the use of electricity while at the same time to reduce the energy cost of the real user spent on hot water hot water, and to reduce the overall electrical load of the late-night electricity and agricultural electricity energy at the national level It is to provide savings and to maximize the reliability and satisfaction of use.

Description

High efficiency heat pump water heater using hot water recirculation circuit {ADVANCED HEAT PUMP WATER HEATER WITH HOT WATER RECYCLING CIRCUIT}

The present invention relates to a high efficiency heat pump water heater using a hot water recirculation circuit,

More specifically, the condenser can be separated into two stages to form a simple circuit to allow recirculation between the preheat condenser and the water tank, so that the required temperature of the hot water can be freely adjusted so that an additional heater is required if hot water is required. Even if low temperature is needed, hot water at low temperature can be easily obtained by only opening and closing the recirculation valve, so that it can be used for multi-purpose, thereby reducing the consumption of electric energy and improving the efficiency of electricity use. Hot water recirculation circuit to reduce the energy cost of real users for hot water supply, reduce the overall electric load of late-night electricity and agricultural electricity, and at the same time save energy at the national level, maximizing reliability and satisfaction in using it High efficiency heat pump It relates to a technique.

The hot water hot water supply system using the heat pump of the conventional practice is fixed to a constant value of the hot water produced, if the hot water of a lower temperature than the hot water produced is inconvenient and cumbersome to use again mixed with cold water If there is a problem, and hot water is required at a high temperature, there is a problem in that reheating is performed using an electric heater.

In addition, the conventional heater method does not add energy absorbed from the air, so hot water is used to make hot water, which does not reduce the electric load of late-night electricity and agricultural electricity. It is.

Therefore, due to the above problems, the conventional heat pump water heater is limited in its productivity and economics to a certain extent, and consumes a lot of electricity, thereby minimizing reliability and satisfaction in using the same. There is.

The present invention has been made to solve the problems of the prior art as described above has the following object.

The present invention separates the condenser in two stages and forms a simple circuit to allow recirculation between the preheat condenser and the water tank so that the temperature of the hot water can be freely adjusted so that an additional heater is required when hot water is required. In addition, even if a low temperature is required, it is possible to easily obtain low temperature hot water by only opening and closing the recirculation valve, thereby providing a first object of making it possible to use for multipurpose.

The second object of the present invention is to reduce the consumption of electrical energy to improve the efficiency of the use of electricity and at the same time to reduce the energy cost of the real user spent on hot water hot water supply, and to reduce the overall electrical load of late-night electricity and agricultural electricity national level It is aimed at maximizing the reliability and satisfaction of using it.

1 is a schematic diagram of a system for explaining the present invention;

2 is an exemplary view for showing a control box of the present invention;

Figure 3 is a plan view showing a stratification device according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: Compressor 2: Oil Separator

3: high temperature condenser 4: preheated condenser

7: evaporator 8: liquid separator

10: water tank 15: main pump

20: stratification device 25: check valve

26: auxiliary pump 27: control box

Hereinafter, a preferred embodiment for achieving the above object of the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The terms to be described below are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer and user of the water heater, and the definitions should be made based on the contents throughout the present specification.

First, the present invention is shown in Figures 1 to 3, Figure 1 is a schematic diagram showing a system configuration for explaining the present invention, Figure 2 is an exemplary view for showing a control box of the present invention, Figure 3 shows a plan view showing a stratification device according to the present invention.

That is, the present invention is a heat pump type water heater using air as a heat source, a device capable of producing three times as much hot water as an electric heater compared to a water heater using an electric heater, and an instantaneous water heater using a hot water recirculation circuit. At the same time, the temperature and flow rate of the hot water can be adjusted to suit the purpose of use by simple operation.

The configuration of the present invention to achieve the above characteristics is a refrigerant circulation consisting of a compressor (1), oil separator (2), condenser, filter-dryer (5), expansion valve (6), evaporator (7) and liquid separator (8). In the circuit, the condenser is formed by separating the high temperature condenser (3) and the preheat condenser (4), the preheat condenser (4) preheats the cold water flowing into the water tank (10) of the water tank (10) It is formed on the outer side of the water tank 10 for storage therein, the hot condenser (3) is water to reheat the hot water stored in the water tank (10) to a high temperature in a preheated state for use with hot water It is formed on the other side of the tank 10, the hot condenser 3 and the preheat condenser 4 is formed in a spiral structure of two rows in the cylindrical pipe through which water passes.

In addition, the total length ratio of the condenser to the high temperature condenser 3 and the preheat condenser 4 is 60% (preheating condenser) to 40% (high temperature condenser) in consideration of the thermal characteristics of the refrigerant passing through the condenser, This is because the preheat condenser 4 has to be sufficiently condensed with the refrigerant, and in the high temperature condenser 3, the hot water preheated in the water tank 10 is reheated to a level suitable for the purpose of use. Will be.

One pipe pipe (4-1) of the preheat condenser (4) has a flow rate control valve (16) for controlling the flow of water, the main pump (15) for facilitating the flow of water and the flow of hot water recycled Auxiliary pump 26 for facilitating, hot water amount control valve 17 for adjusting the amount of hot water recycled by the auxiliary pump 26, and for controlling the cold water flowing through the cold water inlet 18 Inlet cooling means check valve 14 and two check valves 25 for passing only one side of the water in order to prevent the reverse flow of water, and one side of the hot pipe 3-1 of the high temperature condenser 3, the hot water discharge port Discharge-on-means valve 13 is formed to control the amount of hot water discharged through 19 so that a certain amount of water is always stored in the hot water tank, and when hot water is used, the water is preheated continuously. Water circulation circuit to control flow rate and temperature It will lose.

In the water tank 10, two stratification devices 20 are formed to minimize convective heat loss by inducing stratification while suppressing convection when hot water is stored.

The control box 27 for controlling the compressor 1 and the pumps 15 and 26 includes a power switch, a compressor switch, two pump switches, and three PID controllers. The water temperature of the hot water tank, the temperature of the water flowing into the preheat condenser (4) and the temperature of the discharged water is sensed and compared with the set value, and then the operation of the compressor (1) and the pump (15, 26) to control the purpose of use It is to control the temperature of the hot water to be suitable for.

Reference numeral 9 is an evaporator fan, 11 is an air vent, and 12 is a drain valve.

On the other hand, the present invention can be variously modified and take various forms in the component consisting of the above configuration.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

The present invention consisting of the above configuration is a first look at the refrigerant circulation circuit, the compressor (1), oil separator (2), high temperature condenser (3), preheating condenser (4), filter-dryer (5), expansion valve (6) ), The evaporator 7 and the liquid separator 8 in this order.

At this time, the high temperature condenser (3) is formed on the other side of the water tank (10) to reheat the hot water stored in the water tank (10) to a high temperature in a preheated state to use hot water, the preheat condenser (4) ) Is formed on the outer side of the water tank 10 to preheat the cold water flowing into the water tank 10 to be stored inside the water tank 10.

The high temperature condenser 3 and the preheat condenser 4 are formed in two rows of spiral structures, respectively, and are positioned in a cylindrical pipe through which water passes.

In addition, in the preheat condenser 4, sufficient condensation of the refrigerant should be made, and in the high temperature condenser 3, the total length of the entire condenser in order to reheat the hot water preheated in the water tank 10 to a level suitable for the purpose of use. The ratio consists of 60% (preheat condenser) to 40% (hot condenser), which takes into account the thermal characteristics of the refrigerant passing through the condenser.

Water circulation circuit composed of the configuration of the present invention is the inlet cooling means valve 14, check valve 25, the main pump 15 and the flow rate control formed in the pipe pipe 41 when the cold water is introduced through the cold water inlet 18 In order to move the valve 16, the flow control valve 16 to control the flow of water, the main pump 15 is to drive to facilitate the flow of water.

At this time, the cold water passing through the flow control valve 16 is preheated by the preheat condenser (4) is stored in the water tank (10), if necessary, the hot water stored in the water tank (10) Recirculation is performed to preheat, but is sent to the preheat condenser (4) via the auxiliary pump 26 and the recirculation hot water amount control valve (17).

The two check valves 25 are valves for passing only one side of the water to prevent the reverse flow of water.

The hot water stored in the water tank 10 is discharged to the hot water discharge port 19 through the pipe pipe 3-1 connected to the high temperature condenser 3, the discharge hot water intermittent valve 13 is To adjust the volume.

As described above, the water circulation circuit always allows a predetermined amount of water to be stored in the hot water tank and at the same time, it is possible to preheat the water continuously when hot water is used, and the flow rate and temperature of the discharged water can be controlled.

The stratification apparatus 20 formed in the water tank 10 may minimize convective heat loss by inducing stratification by suppressing convection generated when hot water is stored.

The control box 27 for controlling the components is composed of a power switch, a compressor switch, two pump switches, and three PID controllers.

At this time, the three PID controllers to the water temperature of the hot water tank, the preheat condenser (4) to control the temperature of the hot water to suit the purpose of use by controlling the operation of the compressor (1) and the pump (15, 26) The temperature of the incoming water and the discharged water are detected and then compared with the set value.

Therefore, the hot water currently used in agriculture is mostly dependent on hot water boilers using petroleum energy, and recently, hot water heaters equipped with electric heaters using cheap midnight electricity as energy sources have been widely used. Compared to the water heater of the electric heater, the heat pump water heater can achieve a cost saving of 60% or more in economical efficiency because it can produce the same amount of hot water with only 1/3 of the power consumption.

As described above, in the present invention, the condenser is separated into two stages to form a simple circuit for recycling between the preheat condenser and the water tank. There is no need for additional heaters, and even when low temperatures are needed, hot water at low temperatures can be easily obtained by simply opening and closing the recirculation valve, which increases the efficiency of electricity use by reducing the consumption of electric energy due to the multi-purpose effect. In addition, the energy cost of real users for hot water supply is reduced, and the overall energy savings at the national level are reduced by reducing the overall electric loads of late-night electricity and agricultural electricity, thereby maximizing the reliability and satisfaction of using them. Is a very useful invention White

Claims (5)

In a refrigerant circulation circuit comprising a compressor (1), an oil separator (2), a condenser, a filter-dryer (5), an expansion valve (6), an evaporator (7) and a liquid separator (8), The condenser is formed by separating the high temperature condenser (3) and the preheat condenser (4), The preheat condenser 4 is formed on one side of the outer side of the water tank 10 to preheat the cold water flowing into the water tank 10 to be stored in the water tank 10, The high temperature condenser (3) is formed on the other side of the outer side of the water tank (10) for reheating the hot water stored in the water tank (10) to a high temperature in a preheated state to use hot water, The high temperature condenser (3) and the preheat condenser (4) is a high efficiency heat pump water heater using a hot water recirculation circuit, characterized in that each formed in a spiral structure of two rows in the cylindrical pipe through which water passes. The method of claim 1, The total length ratio of the condenser to the high temperature condenser 3 and the preheating condenser 4 is 60% (preheating condenser) to 40% (high temperature condenser) in consideration of the thermal characteristics of the refrigerant passing through the condenser. High efficiency heat pump water heater using hot water recirculation circuit. The method according to claim 1 or 2, One pipe pipe (4-1) of the preheat condenser (4) has a flow rate control valve (16) for controlling the flow of water, the main pump (15) for facilitating the flow of water and the flow of hot water recycled Auxiliary pump 26 for facilitating, hot water amount control valve 17 for adjusting the amount of hot water recycled by the auxiliary pump 26, and for controlling the cold water flowing through the cold water inlet 18 Inlet cooling means check valve 14 and two check valves 25 for passing only one side of the water in order to prevent the reverse flow of water, and one side of the hot pipe 3-1 of the high temperature condenser 3, the hot water discharge port Discharge-on-means valve 13 is formed to control the amount of hot water discharged through 19 so that a certain amount of water is always stored in the hot water tank, and when hot water is used, the water is preheated continuously. Water circulation circuit to control flow rate and temperature High-efficiency heat pump water heater with a hot water recirculation circuit, characterized in that that. The method of claim 3, The hot water recirculation circuit is characterized in that the water tank 10 is formed with two stratification devices 20 in order to minimize convective heat loss by inducing stratification while suppressing convection when hot water is stored. High efficiency heat pump water heater. The method of claim 1, The control box 27 for controlling the compressor 1 and the pumps 15 and 26 includes a power switch, a compressor switch, two pump switches, and three PID controllers. The water temperature of the hot water tank, the temperature of the water flowing into the preheat condenser (4) and the temperature of the discharged water is sensed and compared with the set value, and then the operation of the compressor (1) and the pump (15, 26) to control the purpose of use High efficiency heat pump water heater using the hot water recirculation circuit, characterized in that it is configured to control the temperature of the hot water to be suitable for.