KR20090068966A - Apparatus for heating - Google Patents

Abstract

A heating apparatus is provided to control the temperature of the hot water which a user wants efficiently by controlling the hot water through the control of driving a hot-water circulating pump. A heating apparatus(100) comprises a heat exchanger(110), a plurality of hot-water circulating pumps(140), and a controller. The heat exchanger heat-exchanges refrigerant of high temperature flowed from an air-conditioner(150) with the circulating hot water of the low temperature flowing inside. The hot-water circulating pump controls the amount of the circulating hot water flowed into the heat exchanger. In the hot-water circulating pump, the amount of the discharged circulating hot water is fixed. The controller controls the number of the hot-water circulating pumps which are operated in order to control the amount of the circulating hot water according to range which a user sets up.

Description

Heating device {Apparatus for heating}

The present invention relates to a heating device, and more particularly to a heating device for controlling the amount of hot water by controlling a hot water pump.

In a heating apparatus using a compressor and a heat pump, the temperature of hot water discharged from the heating apparatus is controlled by adjusting the amount of the refrigerant flowing in the outdoor unit. However, in such a case, a situation arises in which the temperature of the hot water cannot be controlled accurately. Therefore, when a user showers or operates for heating, the user cannot provide the desired temperature accurately and conveniently.

An object of the present invention is to provide a heating device for efficiently controlling the temperature of hot water desired by a user.

The present invention, a heat exchanger for heat exchange between the high temperature refrigerant introduced from the air conditioner and the low temperature circulating hot water introduced into the indoor space, a hot water circulation pump for controlling the amount of the circulating hot water introduced into the heat exchanger, To control the temperature, it provides a heating device including a control unit for controlling the hot water circulation pump.

Another aspect of the present invention, a heat exchanger for heat exchange between the high temperature refrigerant flowing from the air conditioner and the low temperature circulating hot water introduced into the indoor space, a compressor for adjusting the amount of the high temperature refrigerant flowing into the heat exchanger, and the heat exchange It provides a heating apparatus including a hot water circulation pump for controlling the amount of circulating hot water introduced into the air, and a control unit for controlling the compressor and the hot water circulation pump to adjust the temperature of the circulating hot water.

Another aspect of the present invention, a heat exchanger for heat exchange between the high temperature refrigerant flowing from the air conditioner and the low temperature circulating hot water introduced into the indoor space, a hot water circulation pump for controlling the amount of circulating hot water introduced into the heat exchanger, It provides a heating device including a control unit for controlling the hot water circulation pump to increase the temperature of the circulating hot water.

The heating apparatus according to the present invention can control the hot water through the operation control of the hot water circulation pump. Therefore, the user can efficiently control the temperature of the desired hot water.

1 is a schematic configuration diagram of an example of the sealing of the heating apparatus 100 according to the present invention. 2 is an operation diagram showing an operating state of the heating apparatus 100 shown in FIG. 3 is a block diagram showing a control method of the hot water circulation pump 140 shown in FIG. 4 is a flowchart illustrating a method of controlling the hot water circulation pump 140 shown in FIG. 2. Hereinafter, a description will be given of a control method of increasing the temperature of the temperature of the circulating hot water T ₁ . Control method for lowering the temperature of the temperature (T ₁₎ of the circulating water is the control method as opposed to a control method of increasing the temperature of the temperature (T ₁₎ of the circulating hot water is applied.

Referring to FIG. 1, the heating device 100 includes a heat exchanger 110 and a heat exchanger 110 for heat-exchanging high temperature refrigerant introduced from an air conditioner 150 and low temperature circulating hot water introduced into an indoor space. The inlet pipe 160 into which the low temperature circulating hot water is introduced, the discharge pipe 170 through which the circulating hot water flowing out from the heat exchanger 110 flows, and the circulating hot water flowing from the discharge pipe 170 are stored and When the temperature is less than the desired temperature circulating hot water storage device 130 for supplying heat to the circulating hot water, and the pressure vessel 120 to prevent the circulating hot water flowing into the circulating hot water storage device 130, the heat exchange It includes a hot water circulation pump 140 for adjusting the amount of circulating hot water introduced into the machine (110).

Referring to FIG. 2, the circulating hot water passes through the heat exchanger 110 after providing hot water to the user and forming a low temperature or ending the heating of the room. On the other hand, the high temperature and high pressure refrigerant flowing from the air conditioner 150 formed outside the heat exchange with the low temperature circulating hot water while passing through the heat exchanger (110). The heat-exchanged circulating hot water is stored in the circulating hot water storage device 130 through the discharge pipe 170. The circulating hot water storage device 130 not only stores the circulating hot water but also heats the circulating hot water so as to be suitable for a set temperature set by a user. The hot water stored in the circulation hot water storage device 130 is used for supplying hot water to the user through the hot water circulation pump 140 or for indoor heating. By repeatedly performing the above operation, the user may be provided with hot water of a desired temperature or maintain a desired room temperature.

Referring to FIG. 3, the temperature measuring unit 171 is a temperature T of the circulating hot water in the discharge pipe 170 in which the hot refrigerant flowing from the air conditioner 150 and the low temperature circulating hot water are exchanged and discharged. ₂ ) Measure. The temperature T ₂ of the circulating hot water is transmitted to the controller 180 that controls the hot water circulation pumps 140, 141, and 142. In addition, when the user inputs the temperature to be set by the temperature input unit 190, the input temperature is transmitted to the controller 180. The controller 180 determines a set temperature based on the input temperature. The controller 180 controls the opening degree of the hot water circulation pumps 140, 141 and 142 by comparing the transmitted temperature T ₂ with the set temperature. By controlling the opening degree of the hot water circulation pumps 140, 141 and 142, suitable hot water can be provided. The hot water circulation pump 140 may be arranged in plural as described above, or may be arranged in a single stage. The above arrangement is arranged in consideration of energy efficiency, manufacturing cost, and the like. When a plurality of hot water circulation pumps 140 are disposed, the amount m ₂ of the circulation hot water flowing through each of the hot water circulation pumps 140, 141, and 142 may be constant. When the amount of circulation hot water m ₂ is constant, the controller 180 controls the operation of the plurality of hot water circulation pumps 140, 141 and 142 to stop or drive the hot water circulation pumps 140, 141 and 142 according to a set temperature. Control of the adjustment of the amount of circulation hot water (m ₂ ) flowing through the hot water circulation pumps (140, 141, 142) will be described below.

Referring to FIG. 4, when the heating apparatus 100 starts (step S110), the user inputs a temperature to be set in the temperature input unit 190. (Step S120) in the temperature measuring unit 171 in the discharge pipe 170. The temperature T ₂ of the circulating hot water flowing is measured (step S130). The measured T ₂ and the input temperature are transmitted to the controller 180, and the controller 180 is set based on the input temperature. it is determined that exceeds the set temperature. (S140 step) is less than the T ₂ has when it is determined to be greater than or equal to the set temperature, controls the opening degree of the hot water circulation pump (140). (S160 step) on the other hand, the T ₂ is the set point If it is determined that the opening degree of the hot water circulation pump 140 is reduced. (S150) By monitoring the opening degree of the hot water circulation pump 140, the amount of the circulation hot water (m ₂ ) is reduced. The theoretical background of the above is as follows.

Q ₁ : Refrigerant side heat quantity, m ₁ : Refrigerant flow rate, h ₂ , h ₁ Air side enthalpy

Q ₂ : circulating hot water calories, m ₂ : circulating hot water flow rate,

T ₂ : Outlet temperature of circulating hot water, T ₁ : Inlet temperature of circulating hot water

The high temperature and high pressure refrigerant flowing from the air conditioner 150 includes the heat quantity of Q ₁ . In addition, the circulating hot water includes the calorific value of Q ₂ . Assuming that energy loss during heat exchange between the refrigerant and the circulating hot water is small, Q ₁ and Q ₂ should be identical to each other. If the capacity of the air conditioner 150 is constant, the case of Q ₁ is constant. Thus Q ₁ has a fixed value. In order to increase the temperature (T ₂₎ of the circulating hot water, with a constant Q ₁ lower the temperature (T ₁₎ of the circulating hot water of the inflow pipe 160, or to increase the temperature of the discharge pipe. It is difficult to adjust the inlet temperature (T ₁ ) of the circulating hot water according to the use of the user, while in the case of the discharge temperature (T ₂ ) of the circulating temperature, the temperature of the circulating hot water by reducing the flow rate of the circulating hot water (T ₂ ) can be increased. Therefore, by controlling the hot water circulation pump 140 through the step S150 and S160 to adjust the amount of the circulation hot water (m ₂ ). By adjusting the amount (m ₂₎ of the circulating hot water, it is possible to increase the temperature (T ₂₎ of the circulating hot water. As described above, the opening degree of the hot water circulation pump 140 is adjusted through the controller 180 to adjust the amount of circulation hot water m ₂ . In addition, a plurality of hot water circulation pump 140 may be arranged to adjust the amount (m ₂ ) of the circulation hot water. By increasing the temperature (T ₂ ) of the circulating hot water, it is possible to efficiently control the temperature by controlling the temperature (T ₂ ) of the circulating hot water rather than adjusting the amount (m ₁ ) of the refrigerant. In addition, more precise control is possible than precisely adjusting the amount of the refrigerant m ₁ so that the user can accurately control the desired temperature.

5 is a schematic structural diagram of another embodiment of a heating apparatus 200 according to the present invention. FIG. 6 is an operation diagram illustrating an operation state of the heating apparatus 200 illustrated in FIG. 5. FIG. 7 is a block diagram illustrating a control method of the hot water circulation pumps 240, 241 and 242 illustrated in FIG. 6. FIG. 8 is a flowchart illustrating a method of controlling the hot water circulation pumps 240, 241 and 242 illustrated in FIG. 6. The same reference numerals as in the above-described embodiment indicate the same members, and the same parts as the above-described embodiments will be omitted and described below. In addition, hereinafter, a description will be given of a control method of raising the temperature of the temperature (T ₂ ) of the circulating hot water. The control method of lowering the temperature of the temperature T ₂ of the circulating hot water is applied to a control method opposite to the control method of increasing the temperature of the temperature T ₂ of the circulating hot water.

5 and 6, the heating device 200 includes a heat exchanger 210 for exchanging heat of a high temperature refrigerant introduced from an air conditioner 250 and a low temperature circulating hot water introduced into an indoor space, and a heat exchanger. The inlet pipe 260 into which the low temperature circulating hot water flows into the 210, the discharge pipe 270 through which the circulating hot water flowing out of the heat exchanger 210 flows, and the circulating hot water flowing from the discharge pipe 270 are stored. If the user is less than the desired temperature circulating hot water storage device 230 for supplying heat to the circulating hot water, and the pressure vessel 220 to prevent the circulating hot water flowing into the circulating hot water storage device 230 to flow back And a plurality of hot water circulation pumps 240, 241 and 242 for adjusting the amount m ₂ of circulating hot water introduced into the heat exchanger 210. The hot water circulation pump 240 may include several types of pumps. The amount of circulation hot water may be adjusted by adjusting the opening degree, or the flow rate is constant so that each hot water circulation pump may be adjusted or driven. Operation of the heating device 200 is similar to that described in FIG.

Referring to FIG. 7, the temperature measuring unit 271 includes a temperature T of the circulating hot water in the discharge pipe 270 in which the high temperature refrigerant introduced from the air conditioner 250 and the low temperature circulating hot water are exchanged and discharged. ₂ ) Measure. On the other hand, the refrigerant amount measuring unit 251 measures the amount (m ₁ ) of the refrigerant flowing in the air conditioner 250. In addition, when the user inputs the temperature to be set by the temperature input unit 190, the input temperature is transmitted to the controller 180. The controller 180 determines a set temperature based on the input temperature. The measured temperature T ₂ of the circulating hot water, the amount m ₁ of the refrigerant, and the input temperature are transmitted to the controller 280 that controls the hot water circulation pumps 240, 241 and 242. The controller 280 determines a set temperature based on the input temperature. The controller 280 controls the hot water circulation pumps 240, 241 and 242 by comparing the transmitted temperature T ₂ with the set temperature. In addition, the compressor 152 is controlled by comparing with the set temperature T ₂ to control the amount of the refrigerant m ₁ . In order to adjust the amount of circulation hot water m ₂ , the control unit 280 stops or drives each hot water circulation pump 240, 241 or 242. That is, by controlling the number of operating the plurality of hot water circulation pump (240, 241, 242), the amount of the circulation hot water (m ₂ ) is adjusted. Therefore, through the control, the heating device 200 may provide a temperature of hot water suitable for the user. In addition, when a plurality of hot water circulation pumps 240, 241 and 242 are arranged, the amount of circulation hot water m ₂ may be adjusted by controlling the opening degree of each hot water circulation pump 240, 241 or 242. On the other hand, only one hot water circulation pump 240 may be disposed. When only one hot water circulation pump 240 is disposed, the amount (m ₂ ) of the circulation hot water flowing through the hot water circulation pump 240 is controlled by adjusting the opening degree of the hot water circulation pump 240. The above arrangement is arranged in consideration of energy efficiency, manufacturing cost, and the like.

Referring to FIG. 8, when the heating device 200 starts (step S210), the user inputs a temperature to be set in the temperature input unit 280. (Step S220) in the temperature measuring unit 271 at the discharge pipe 270. The temperature (T ₂ ) of the circulating hot water flowing is measured. (Step S230) The amount of the high temperature and high pressure refrigerant (m ₁ ) flowing out of the compressor 252 in the refrigerant amount measuring unit 251 is measured. The input temperature is transmitted to the controller 280, and the controller 280 determines a first set temperature and a second set temperature based on the input temperature. The measured T ₂ is transmitted to the control unit 280 and determines whether the first set temperature is exceeded by the control unit 280. (S250) If it is determined that the T ₂ is less than the first set temperature, the compressor 252 The temperature (T ₂ ) of the circulating hot water is controlled by controlling the amount of refrigerant (m ₁ ) flowing into the tank. (Step S251) Simultaneously with step S251, the controller 280 operates the first hot water circulation pump 240. In operation S252, the second hot water circulation pump 241 and the third hot water circulation pump 242 are identified.

On the other hand, if it is determined that T ₂ exceeds the first set temperature, it is determined whether the T exceeds the first set temperature and is less than the second set temperature. The temperature (T ₂ ) of the circulating hot water is controlled by controlling the amount of refrigerant (m ₁ ). The circulation pump 241 is driven and the third hot water circulation pump 242 is marked. (Step S262).

In addition, if it is determined that the condition is not satisfied, first, the temperature (T ₂ ) of the circulating hot water is controlled by controlling the amount (m ₁ ) of the refrigerant flowing into the compressor (252). At the same time, the controller 280 drives the first hot water circulation pump 240, the second hot water circulation pump 241, and the third hot water circulation pump 242. (Step S264) The above control is the hot water circulation pumps. It may be controlled by stopping or driving the 240, 241 and 242, and may be controlled by maintaining or driving the hot water circulation pumps 240, 241 and 242. The above control is measured experimentally and carried out by selecting a suitable method. Further, the hot water circulation pump (240 241 242) may be adjusted by the opening degree controlling the amount (m ₂₎ of the circulating hot water to control the temperature (T ₂₎ of the circulating hot water.

Through the control as described above, the user can efficiently operate the heating device 200 and increase the durability of the heating device 200. In addition, when manufacturing the heating device 200, since the hot water circulation pumps 240, 241, 242 to pass a constant amount of circulating hot water is used, the cost is also reduced.

9 is a schematic structural diagram of yet another embodiment of a heating apparatus 300 according to the present invention. 10 is a flowchart illustrating a method of controlling the hot water circulation pump 340 shown in FIG. 9.

9 and 10, the hot water circulation pump 340 may be controlled to increase the temperature T ₂ of the circulation hot water. In order to increase the temperature T ₂ of the circulating hot water, the hot water circulation pump 340 is controlled to reduce the amount m ₂ of the circulating hot water flowing out of the heat exchanger 310. Looking at the flow of the above control is as follows. When the heating device 300 starts the heating stroke (step S310), the user inputs a temperature to be set in a temperature input unit (not shown). measure the temperature of the hot water (T ₂₎ (step S330), the measured temperature of the circulating hot water (T ₂₎ is transmitted to a controller (not shown). In addition, the controller (not shown) determines the set temperature based on the input temperature. The controller (not shown) compares the transmitted temperature T ₂ of the circulating hot water with the set temperature. (S340) If the temperature T ₂ of the circulating hot water is less than the set temperature, the controller (not shown) the amount and controls the hot water circulation pump 340 to reduce (m _2). (S350 step) on the other hand, the temperature (T ₂₎ of the circulating hot water in the circulating water in order to increase the temperature (T ₂₎ of the circulating hot water When the temperature is greater than or equal to the set temperature, the controller 380 controls the hot water circulation pump 340 to maintain the amount (m ₂ ) of the circulating hot water. (Step S360) Therefore, if the user lacks hot water using hot water, The hot water circulation pump 340 may be controlled to supply hot water within a short time. Only one hot water circulation pump 340 may be disposed, or a plurality of hot water circulation pumps 340 may be disposed. In addition, when a plurality of hot water circulation pumps 340 (not shown), the amount of the circulation hot water flowing is constant.

1 is a schematic configuration diagram of an example of a sealing of a heating apparatus according to the present invention.

2 is an operation diagram showing an operating state of the heating apparatus shown in FIG.

3 is a block diagram showing a control method of the hot water circulation pump shown in FIG.

4 is a flowchart illustrating a method of controlling the hot water circulation pump shown in FIG. 2.

5 is a schematic configuration diagram of another sealing example of the heating apparatus according to the present invention.

6 is an operation diagram showing an operating state of the heating apparatus shown in FIG.

7 is a block diagram showing a control method of the hot water circulation pump shown in FIG.

8 is a flowchart illustrating a method of controlling the hot water circulation pumps illustrated in FIG. 6.

9 is a schematic structural diagram of yet another embodiment of a heating apparatus according to the present invention.

10 is a flowchart illustrating a method of controlling the hot water circulation pump shown in FIG. 9.

<Brief description of the symbols of the main parts of the drawings>

100,200,300: Heating device 151,251: Temperature measuring part

110,210,310: Heat exchanger 160,260,360: Inlet pipe

120,220,320: Pressure vessel 170,270,370: Exhaust piping

130,230,330: circulation hot water storage device 180,280: control unit

140,240,340: hot water circulation pump 251: refrigerant amount measuring unit

150, 250, 350: air conditioner 252: compressor

Claims (7)

A heat exchanger for exchanging high temperature refrigerant introduced from an air conditioner and low temperature circulating hot water introduced into an indoor space; A plurality of hot water circulation pumps for adjusting the amount of circulating hot water introduced into the heat exchanger and having a constant amount of circulating hot water discharged; And a control unit for controlling the number of operations of the hot water circulation pump to adjust the amount of the circulation hot water according to a range set by a user to control the temperature of the circulation hot water. A heat exchanger for exchanging high temperature refrigerant introduced from an air conditioner and low temperature circulating hot water introduced into an indoor space; A compressor for controlling the amount of the high temperature refrigerant flowing into the heat exchanger; Hot water circulation pump for adjusting the amount of circulating hot water flowing into the heat exchanger; And a control unit for controlling the compressor and the hot water circulation pump to adjust the temperature of the circulating hot water. The method according to claim 2, The control unit controls the amount of the circulation hot water by controlling the opening degree of the hot water circulation pump according to a range set by the user. The method according to claim 3, Heating device, wherein the plurality of hot water circulation pumps are arranged. The method according to claim 4, Each of the hot water circulation pump is a constant amount of circulating hot water discharged, The control unit is a heating device for adjusting the number of operating the hot water circulation pump to adjust the amount of the circulation hot water according to a range set by the user. A heat exchanger for exchanging high temperature refrigerant introduced from an air conditioner and low temperature circulating hot water introduced into an indoor space; Hot water circulation pump for adjusting the amount of circulating hot water flowing into the heat exchanger; Heating device including a control unit and an air conditioner for controlling the hot water circulation pump to increase the temperature of the circulating hot water. The method according to claim 6, The control unit controls the hot water circulation pump to reduce the amount of the circulating hot water flowing out from the heat exchanger.

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