KR101823513B1 - Heat pump, air conditioner having the same, and hot water heating system - Google Patents

Abstract

A heat pump, an air conditioner having the same, and a hot water circulation system are disclosed. Embodiments of the present invention replace or supplement the regenerative boiler by providing hot water or heating with a heat pump that is operated to determine whether the night-time electricity is supplied by touch sensing using power information. Embodiments of the present invention provide air conditioning and heating using an air conditioner having a heat pump, and provide hot water and heating using nighttime electricity to maximize the efficiency of the system.

Description

TECHNICAL FIELD [0001] The present invention relates to a heat pump, an air conditioner having the same, and a hot water circulation system.

The present invention relates to a hot water circulation system capable of supplying hot water and heating using a heat pump or an air conditioner having the same.

As shown in FIG. 9, the hot water circulation system using the regenerative boiler uses electric power from 10:00 am to 8:00 am on the night, which is a relatively small amount of electric power consumption, or from 11:00 pm to 9:00 am the next day. This is used to distribute surplus power at midnight to disperse the power consumption during the day and to maximize the efficiency of power generation facilities.

Referring to FIG. 10, a general regenerative boiler 20 has a large hot water tank, and at least one electric heater 21 for heating water to make hot water is installed inside the hot water tank. The electric heater (21) is intensively operated at the midnight time to heat and store the water or latent heat material in the hot water tank. The regenerative boiler (20) supplies heat and hot water by using the discharge pipe (22) and the inflow pipe (23) during the daytime, so that the energy can be used at a low price.

However, in the case of using the night-time electricity, the regenerative boiler 20 may heat the water after the electric power is supplied to the regeneration boiler 20, so that the energy efficiency may be lowered, and the cost may increase, have.

Embodiments of the present invention are directed to proposing an efficient energy source that replaces or supplements a regenerative boiler.

Embodiments of the present invention have another object to provide a heat pump driven by night-time electricity and an air conditioner having the same.

It is another object of the present invention to provide a hot water circulation system capable of supplying hot water by using a heat pump and an air conditioner having the heat pump in the night time zone.

According to an embodiment of the present invention, there is provided a heat pump including: a power supply unit connected to an external power supply unit and supplying power received by the power supply; a power information receiving unit receiving power information from the external power supply device; And a control unit for heating the water according to the detection signal to provide the heat source to the external heating system.

The air conditioner according to one embodiment includes an outdoor unit for compressing and supplying a refrigerant to a high temperature and a high pressure, an indoor unit for exchanging heat between the refrigerant and water, and an outdoor unit And a controller for controlling the controller.

The hot water circulation system according to an embodiment includes an air conditioner that supplies hot water by heat exchange between a high temperature and high pressure refrigerant and water, and a heating device including a boiler for heating water by using an electric heater to supply hot water The air conditioner includes a sensing unit that senses that the electricity supply is night-time electricity. The air conditioner is operated when the night-time electricity is supplied to provide the heat source to the boiler.

Embodiments of the present invention replace or supplement the regenerative boiler by providing hot water or heating with a heat pump that is operated to determine whether the night-time electricity is supplied by touch sensing using power information.

Embodiments of the present invention provide air conditioning and heating using an air conditioner having a heat pump, and provide hot water and heating using nighttime electricity to maximize the efficiency of the system.

Embodiments of the present invention provide a hot water circulation system using a heat pump to increase energy efficiency and further improve profitability.

1 is a schematic view of a hot water circulation system according to one embodiment;
FIG. 2 is a block diagram of a controller of an air conditioner according to an embodiment; FIG.
3 is a conceptual diagram illustrating an operation of the air conditioner according to an embodiment to receive power information from a power supply;
Figure 4 schematically illustrates a heat pump according to one embodiment;
5 is a view for explaining an operation of the air conditioner according to an embodiment of the present invention.
6 is a schematic view of an outdoor unit of an air conditioner according to an embodiment;
FIGS. 7 and 8 are flowcharts schematically illustrating a control method of an air conditioner according to embodiments;
Figure 9 is a schematic view of a hot water circulation system according to the prior art; And
FIG. 10 is a view showing an example of the boiler in FIG. 9. FIG.

Referring to FIG. 1, a hot water circulation system according to an embodiment includes an air conditioner 10 for supplying hot water by heat exchange between high temperature and high pressure refrigerant and water, And a heating device (30) having a boiler (20) for heating. Here, the air conditioner (10) is provided with a sensing unit for sensing that the electricity supply is the night-time electricity, and the heat source is operated when the night-time electricity is supplied to the boiler. The heating device may include a pump 21 for allowing hot water flowing from the boiler to flow, a valve 23 for supplying hot water to the heating device, and means 25 for recovering from the heating device. Here, the reference numeral 20a is means for controlling the boiler.

1 and 2, the air conditioner 10 according to an embodiment includes an outdoor unit 300 for compressing and providing a refrigerant at a high temperature and a high pressure, an indoor unit 200 for exchanging heat between the refrigerant and water, And a controller (100) for controlling the indoor unit to provide a heat source to an external heating system if the electricity supply is at night. The air conditioner 10 may further include a wired controller 400 connected to the indoor unit through a wired communication method such as RS-485 to control the outdoor unit and / or the indoor unit.

2, a heat pump according to an embodiment includes a power supply unit 110 connected to an external power supply unit and supplying power received from the external power supply unit, a power information receiving unit A sensing unit 120 for sensing a supply electricity based on the power information and generating a sensing signal, and a controller for controlling the water heating unit to supply water to an external heating system And a control unit 130. The heat pump may include an indoor unit and a controller, or an outdoor unit, an indoor unit, and a controller may be included in one body.

Referring to FIG. 3, the power information receiving unit receives power information from an external power device. The power information includes electricity rate information according to the time zone. The power information includes a general time zone and a night time zone, and may include information on a peak time zone. Here, the external power device 40 is at least one of a home server, a smart meter, and an external power generation system. Also, the external power device may include a gateway 43 connected thereto.

The power information receiving unit is connected to a power device through a wired / wireless communication method to receive power information. The wired / wireless communication method includes data communication such as power line communication, wireless LAN, Bluetooth, Wi-Fi, 3G, infrared communication, Internet, Zigbee, Both of which are capable of transmitting and receiving data.

The sensing unit 120 may sense the nighttime electricity using the power information and generate a sensing signal. In addition, when the power information includes an on / off signal of the night-time electricity, the sensing unit 120 may detect the on / off signal of the night-time electricity and generate a sensing signal. In the latter case, the power information receiving unit and the sensing unit may be integrated into one, or the sensing unit may be included in the control unit.

The sensing unit 120 is connected to the power supply unit 110 and is not operated when general electricity is supplied to the power supply unit and operates when the nighttime electricity is supplied to the power supply unit to generate the sensing signal. Dry Contact). The contact sensing device acts as a switch by connecting external electricity. When the detection signal is ON, the control unit 130 determines that the night-time electricity is ON, and if the detection signal is OFF, the controller 130 determines that the night-time electricity is OFF.

In addition, the user or the like can disable the use setting or the setting so that the contact detection device does not detect or detect the late night electricity so as to use or not use the night time electricity. That is, only when the use is set, the sensing unit 120 senses the external electrical contact and generates a sensing signal.

The heat pump includes a compressor for compressing refrigerant at a high temperature and a high pressure, a heat exchanger for exchanging heat between the refrigerant discharged from the compressor and the water, and an expansion valve for expanding the refrigerant passing through the heat exchanger to low temperature and low pressure . The heat pump including the outdoor unit, the indoor unit, and the controller will be described with reference to FIG. 4 and the following figures.

4 or 5, the indoor unit 200 according to an embodiment includes a first indoor heat exchanger 240 for exchanging heat between the refrigerant and the indoor unit refrigerant, a second indoor heat exchanger 240 for exchanging heat between the indoor unit refrigerant and the water, And an indoor heat exchanger 220. Referring to FIG. 4, the indoor unit 200 includes an indoor compressor 210 for compressing the indoor refrigerant at a high temperature and a high pressure, and an outdoor unit 220 for filtering the indoor refrigerant in a liquid state to supply the indoor refrigerant in a gaseous state to the indoor compressor An indoor accumulator 250 and an expansion valve 230 for expanding the indoor refrigerant that has passed through the second indoor heat exchanger to low temperature and low pressure. The indoor unit includes a low pressure sensor 281 for sensing the pressure of the refrigerant in the indoor unit heat exchanged from the first indoor heat exchanger and a high pressure sensor 282 for sensing the pressure of the refrigerant in the indoor unit compressed and discharged through the indoor compressor 210 . Further, the refrigerant pipe may further include temperature sensors TH1 to TH6 such as a thermostat. Reference numeral 290 denotes a strainer.

6, the outdoor unit 300 includes an outdoor compressor 310 for compressing the refrigerant to a high temperature and a high pressure, a refrigerant switching valve (not shown) for regulating the flow direction of the refrigerant discharged from the first compressor, An inflator 340 for expanding refrigerant having passed through the first indoor heat exchanger to low temperature and low pressure and an outdoor heat exchanger 330 for exchanging heat between the outdoor air and the refrigerant.

As described above, the controller 100 includes a power supply unit 110 connected to the external power supply unit to supply electricity, and a sensing unit 120 that senses that the electricity supply is the night-time electricity and generates a sensing signal. And a controller 130 for controlling the indoor unit according to the sensing signal. In addition, the controller 100 may further include a power information receiving unit for receiving power information such as charge information and night-time electrical on / off signals from the external power supply device according to time zones.

The operation of the hot water circulation system using the heat pump or the air conditioner having the heat pump will be described with reference to FIG. 7 or FIG.

Referring to FIG. 7, the air conditioner receives electricity from the external power device (S110), and determines whether the electricity received by the contact sensing device is night-time electricity (S120). If the electricity received is normal electricity, the air conditioner can perform air conditioning in the installed area (S10). On the other hand, if the electricity received is judged to be late-night electricity, the air conditioner operates the outdoor unit and the indoor unit (S130, S140), and supplies the hot water to the heating system as a heat source by heating the water (S150). At this time, the heat pump or the air conditioner having the heat pump can be used as a supplement or a substitute for the boiler when a regenerative late-night electric boiler is installed.

Referring to FIG. 8, the air conditioner receives electricity from an external power device (S210), and receives power information such as time zone charge information and nighttime electric on / off signals through a smart meter, a smart grid, and the like S220). If it is determined that the electricity is night-time electricity through the electric power information (S221), the air conditioner compresses the refrigerant using the outdoor compressor (S231), and performs heat exchange between the compressed refrigerant and the indoor unit refrigerant (S241). The heat exchanged indoor unit refrigerant is heat-exchanged with water (S244). The heat exchanged and heated water is provided to the boiler or heating system (S250). Further, the air conditioner determines whether or not the indoor unit refrigerant is required to be compressed (S242), and if necessary, the indoor unit refrigerant can be compressed using the indoor compressor (S243).

As described above, the heat pump, the air conditioner having the heat pump, and the hot water circulation system according to the embodiments of the present invention judge whether the nighttime electricity is supplied by touch sensing using the electric power information. Embodiments of the present invention replace or supplement the regenerative boiler by providing a heat pump driven according to the determination result to provide hot water or heating. Embodiments of the present invention provide air conditioning and heating using an air conditioner having a heat pump, and provide hot water and heating using nighttime electricity to maximize the efficiency of the system.

10: air conditioner 20: boiler
30: Heating device 40: Power supply device, power generation system
100: controller 200: heat pump, indoor unit
300: outdoor unit

Claims (8)

A power supply unit connected to the external power supply unit and supplying power received;
A power information receiver for receiving power information from the external power supply;
A sensing unit connected to the power unit and configured to sense a supply electricity based on the power information and to generate a sensing signal when the use of night time electricity is set; And
And a control unit for heating the water according to the sensing signal to provide a heat source to an external heating system,
The sensing unit includes:
If the use setting is not made or the use setting is canceled,
The midnight electricity is not sensed,
When the use setting is made,
And a controller for controlling the operation of the touch sensing device when the night electricity is supplied to the power supply unit and when the nighttime electricity is supplied to the power supply unit, And the heat pump. delete An outdoor unit compressing and supplying the refrigerant to high temperature and high pressure;
An indoor unit for exchanging heat between the refrigerant and water; And
And a controller for controlling the indoor unit to provide a heat source to an external heating system if the electricity supply is night-time electricity,
The controller comprising:
A power supply unit connected to the external power supply unit and supplying power received;
A power information receiver for receiving power information from the external power supply;
A sensing unit connected to the power supply unit to generate a sensing signal when it is determined that the supply electricity is the night-time electricity based on the power information, when the use of nighttime electricity is set; And
And a controller for controlling the indoor unit according to the sensing signal,
The sensing unit includes:
If the use setting is not made or the use setting is canceled,
The midnight electricity is not sensed,
When the use setting is made,
And a controller for controlling the operation of the touch sensing device when the night electricity is supplied to the power supply unit and when the nighttime electricity is supplied to the power supply unit, The air conditioner comprising: delete delete delete An air conditioner for supplying hot water by exchanging heat between high temperature and high pressure refrigerant and water; And
And a heating device having a boiler for heating water by using an electric heater to supply hot water,
The air conditioner includes:
A power information receiver for receiving power information from the power supply; And
And a sensing unit for sensing that the supply electricity is night-time electricity based on the power information when use is set for night-time electricity use,
Wherein the control unit senses the night-time electricity when the sensing unit is not used or the usage setting is canceled, and when the sensing unit detects the supply of the night-time electricity based on the electric power information when the use setting is made, And to the boiler. delete

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