KR20110097430A - Boiler system - Google Patents

Abstract

The present invention includes a main heat exchanger for heating the heating water returned through a heating pipe, a hot water heat exchanger for converting the cold water into hot water by heat-exchanging the hot water discharged from the main heat exchanger and the cold water introduced into the water supply pipe, and the main heat A boiler system having a pump for circulating the heating water to an exchanger, the boiler system comprising: a hot water storage tank for storing hot water discharged from the hot water heat exchanger and supplying the hot water to the outside; A heating water storage tank provided to surround the hot water storage tank to store the high temperature heating water discharged from the main heat exchanger, and mutually heat-exchanging the high temperature heating water and the hot water stored in the hot water storage tank; And a heating dedicated circulation pump for circulating the high temperature heating water stored in the heating water storage tank to a heating pipe.
Thereby, there is no heat loss of hot water, hot water can be used immediately and large capacity hot water can be used at the same time. In addition, by providing a circulation pump dedicated for heating, it is possible to heat a larger area with the same amount of heat compared to the conventional boiler system.

Description

Boiler System {BOILER SYSTEM}

The present invention relates to a boiler system, and more specifically, to install a heating water storage tank for storing the heating water in the lower part of the existing boiler, and in addition to the pump for circulating the heating water to the main heat exchanger to circulate the heating water to the indoor heating pipe. It is possible to increase the indoor heating area by the same amount of heat by additionally providing a circulation pump exclusively for heating, and to provide a hot water storage tank for storing hot water inside the heating water storage tank so that a large amount of hot water can be used immediately. .

In general, a boiler heats circulated heating water by using gas, oil, and electric heater, and heats high-temperature heating water and cold water while simultaneously heating the house and building by using high temperature heating water. The hot water is supplied to the faucet.

4 is a view showing a conventional boiler system, the conventional boiler system is a main heat exchanger 110 for heating the heating water returned through the heating pipe in the room, and the heating water and the water supply pipe discharged from the main heat exchanger 110 ( 121, a hot water heat exchanger 120 for converting cold water into hot water, a pump 130 for circulating the heating water in the main heat exchanger 110, and a high temperature discharged from the main heat exchanger 110. Three-way valve 140 for selectively supplying the heating water to the hot water heat exchanger 120 and the heating pipe of the room.

That is, in the heating operation of the boiler system, the heating side direction of the three-way valve 140 is opened and the hot water side direction is closed by a heating controller (not shown) provided in the room, and the heating of the room is performed by the operation of the pump 130. The heating water circulated through the pipe is introduced into the main heat exchanger 110 through the heating water return pipe 111. At this time, the main heat exchanger 110 heats the heating water to a high temperature, and the heated heating water circulates through the three-way valve 140 to the heating pipe in the room through the heating water supply pipe 113. Then, the heating water circulated through the heating pipe is again introduced into the main heat exchanger 110 through the heating water return pipe 111, this process is repeated to heat the room.

In addition, when the hot water supply is used, the flow rate sensor 123 provided in the water supply pipe 121 detects the inflow of cold water and sends a signal to a controller (not shown) that controls the three-way valve 140, and controls the controller (not shown). As a result, the heating side of the three-way valve 140 is closed and the hot water side is opened.

At the same time, the pump 130 is operated to supply the high temperature heating water heated in the main heat exchanger 110 along the left pipe of the hot water heat exchanger 120 through the three-way valve 140, and return water 115 and the pump ( 130). At this time, while the cold water flowing into the water supply pipe 121 passes through the right pipe of the hot water heat exchanger 120, the hot water and the cold water exchange heat, and the cold water is converted into hot water and discharged into the faucet through the hot water supply pipe 125.

Accordingly, in normal times, the heating water heated in the main heat exchanger 110 flows along the heating pipe to perform heating in the room, and when the user opens the faucet for the use of hot water, the heating water temporarily turns off the hot water heat exchanger 120. By allowing the cold water to be heated by flowing inside, it is possible to use heating and hot water in one boiler.

The conventional boiler system performs two roles of circulating the heating water to the indoor heat pipe while circulating the heating water to the main heat exchanger by using one pump when the heating is used. At this time, since the pump is designed in accordance with the main heat exchanger, when the heating pipe is installed in a large area, the circulation of the heating water is not smooth and the heating effect is lowered.

In addition, in the conventional boiler system, when the hot water is used, the flow sensor detects the inflow of cold water and sends a signal to the controller for controlling the three-way valve to open the three-way valve in the direction of the hot water, which is several seconds until the three-way valve is operated. It takes time. Therefore, the cold water is discharged to the faucet for a few seconds before the three-way valve is operated, there is a problem that waste of water and time is generated as the hot water is discharged after opening the faucet to discharge the cold water for a long time.

The present invention has been made to solve the above problems, by providing a heating water storage tank surrounding the hot water storage tank and hot water storage tank in the boiler system, by storing the hot water and heating water, respectively, there is no heat loss of hot water The aim is to provide a boiler system that can use hot water immediately and at the same time use a large amount of hot water.

In addition to the pump that circulates the heating water to the main heat exchanger, a heating dedicated circulation pump for circulating the heating water into the heating pipe of the room is further provided, thereby increasing the heating area of the room by the same amount of heat as compared to the conventional boiler system. The purpose is to provide a system.

The present invention for achieving the above object, the main heat exchanger for heating the heating water returned through the heating pipe, the high temperature heating water discharged from the main heat exchanger and the cold water introduced into the water supply pipe to heat the cold water A boiler system having a hot water heat exchanger for converting into a heat exchanger and a pump for circulating the heating water with the main heat exchanger, the boiler system comprising: a hot water storage tank configured to store and supply hot water discharged from the hot water heat exchanger to the outside; A heating water storage tank provided to surround the hot water storage tank to store the high temperature heating water discharged from the main heat exchanger, and mutually heat-exchanging the high temperature heating water and the hot water stored in the hot water storage tank; And a heating dedicated circulation pump for circulating the high temperature heating water stored in the heating water storage tank to a heating pipe.

In addition, a hot water pump for circulating the hot water stored in the hot water storage tank to the hot water heat exchanger when the hot water is not in use; It characterized in that it further comprises a first valve for controlling the hot water introduced from the hot water storage tank by the operation of the hot water supply pump to the hot water heat exchanger.

The apparatus may further include a second valve controlling the heating water discharged from the heating water storage tank to be introduced into the main heat exchanger when the heating is not used.

In addition, the temperature of the heating water stored in the heating water storage tank is higher than the temperature of the hot water stored in the hot water storage tank.

As described above, since the hot water is always stored in the hot water storage tank of the boiler system of the present invention, hot water can be used immediately, and sufficient amount of hot water can be supplied even when hot water is used simultaneously in several faucets. In addition, the hot water of the heating water storage tank heat-exchanges with the hot water of the hot water storage tank to maintain a constant temperature of the hot water.

In addition, in addition to the pump for circulating the heating water to the main heat exchanger by providing a heating dedicated circulation pump for circulating the heating water to the heating pipe of the room, it is possible to heat a larger area with the same heat amount than the conventional boiler system.

1 is a view showing a boiler system according to an embodiment of the present invention.
2 is a view showing a heating operation state of the boiler system according to an embodiment of the present invention
3 is a view showing a hot water supply operation state of the boiler system according to an embodiment of the present invention
4 shows a conventional boiler system

EMBODIMENT OF THE INVENTION Hereinafter, although the Example of this invention is described in detail, this invention is not limited to a following example, unless the summary is exceeded.

1 is a view showing a boiler system according to an embodiment of the present invention.

Referring to Figure 1, the boiler system according to an embodiment of the present invention, the main heat exchanger 10 for heating the heating water returned through the heating pipe in the room, the heating water and the water supply pipe discharged from the main heat exchanger 10 ( 21) a hot water heat exchanger 20 for converting cold water into hot water by heat-exchanging the cold water introduced into the water, a pump 30 for circulating the heating water in the main heat exchanger 10, and hot water discharged from the hot water heat exchanger 20 Hot water storage tank 40 for storing the supply to the outside, hot water pump 50 for circulating the hot water stored in the hot water storage tank 40 to the hot water heat exchanger 40, and the high temperature discharged from the main heat exchanger (10) Heating water storage tank 60 for storing the heating water of the high-temperature heating water and hot water stored in the hot water storage tank 40 and the high-temperature heating water stored in the heating water storage tank 60 to heat the room Including a circulation pump for exclusive use of heating circulating in the pipe .

Here, the main heat exchanger 10, the hot water heat exchanger 20 and the pump 30 have the same configuration as a conventional instantaneous gas boiler.

Hereinafter, each configuration of the boiler system according to an embodiment of the present invention will be described in detail.

The main heat exchanger 10 serves to heat the heating water returned through the heating water return pipe 17 from the indoor heating pipe. The main heat exchanger 10 includes a pipe part 11 through which heating water flows, and a burner 13 that heats the pipe part 11. That is, the heating water flowing to the pipe portion 11 is heated to a high temperature by heating the pipe portion 11 through the burner 13, the heating water heated to a high temperature is a hot water heat exchanger 20 or a heating water storage tank ( 60).

The hot water heat exchanger 20 receives high temperature heating water from the piping 11 of the main heat exchanger 10, and cold water by heat-exchanging the high temperature heating water and cold water introduced through the water supply pipe 23 from an external water supply pipe 23. To hot water.

Here, a three-way valve 15 is provided between the main heat exchanger 10 and the hot water heat exchanger 20, and the three-way valve 15 receives hot water of the hot water discharged from the main heat exchanger 10. 20) and serves to selectively supply the heating water storage tank (60). In addition, the water supply pipe 21 is provided with a flow rate sensor 23, detects the cold water flowing through the water supply pipe 21 and sends a signal to the control unit (not shown) for operating the three-way valve (15).

That is, in the heating mode of the boiler system, the heating side of the three-way valve 15 is opened and the hot water side is closed so that high temperature heating water discharged from the main heat exchanger 10 flows into the heating water storage tank 60. In operation of the hot water heating mode of the boiler system, the flow rate sensor 23 detects the cold water flowing into the water supply pipe 21 to allow the high temperature heating water discharged from the main heat exchanger 10 to flow into the hot water heat exchanger 20. Close the heating side of (15) and open the hot water side.

The pump 30 is provided on the pipeline through which the heating water flows to circulate the heating water to the pipe part 11 of the main heat exchanger 10. That is, the forced flow of the heating water is generated so that the heating water flows quickly and smoothly, and thus the continuous heat exchange is performed.

The hot water storage tank 40 is a place for storing the hot water discharged from the hot water heat exchanger 20 through the hot water discharge pipe 25, the hot water of about 22L is stored. The temperature of the hot water stored in the hot water storage tank 40 is to be maintained at 60 ° C.

That is, when cold water is supplied from the water supply pipe 21 when the hot water is used, the hot water heat exchanged through the hot water heat exchanger 40 is discharged to the hot water storage tank 40, and 60 ° C. of hot water is stored in the hot water storage tank 40. will be. At this time, the hot water stored in the hot water storage tank 40 is discharged to the faucet through the hot water supply pipe (51).

Hot water supply pump 50 is provided in the hot water supply pipe 51, the operation of the hot water supply is not used or the temperature of the hot water is operated at 50 ° C and stopped at 60 ° C to maintain the temperature of the hot water stored in the hot water storage tank (40) To circulate the hot water stored in the hot water storage tank 40 to the hot water heat exchanger (20).

Here, the hot water supply pipe 51 is provided with a first connecting pipe 55 is connected to the water supply pipe 21, the first connecting pipe 55 is opened when the hot water supply pump 50 is operated, the hot water storage tank 40 A first valve 57 is provided to control the hot water discharged from the water to flow into the water supply pipe 21. In addition, the hot water supply pipe 51 is provided with a hot water supply sensor 53 for detecting the temperature of the hot water.

That is, in summer, since the heating is not necessary, the boiler is turned off, and the hot water stored in the hot water storage tank 40 is cooled because the main heat exchanger 10 is not operated. At this time, when the hot water sensor 53 detects the temperature of the hot water in the hot water storage tank 40 and the hot water cools down, the hot water flows by operating the hot water pump 50, and the hot water flows through the water supply pipe 21 through the first connection pipe. When the flow to the flow rate sensor 23 is operated to send a signal to the control unit (not shown), the control unit (not shown) by operating the main heat exchanger 10, the hot water in the hot water storage tank 40 is a hot water heat exchanger ( 20 is circulated to the high temperature heat exchange is discharged to the hot water storage tank (40).

In other words, hot water introduced into the hot water supply pipe 51 by the operation of the hot water supply pump 50 is introduced into the water supply pipe 21 through the first connection pipe 55 to exchange heat with hot water in the hot water heat exchanger 20. And, the heat exchanged hot water is discharged to the hot water storage tank 40 through the hot water discharge pipe 25, this process is repeated repeatedly to maintain the hot water stored in the hot water storage tank 40 at 60 ° C.

Therefore, since hot water at 60 ° C. is always stored in the hot water storage tank 40, hot water stored in the hot water storage tank 40 may be supplied to the faucet immediately when using hot water.

The heating water storage tank 60 is a place for storing high temperature heating water discharged from the main heat exchanger 10 through the heating water discharge pipe 19, and the heating water of about 20L is stored. The heating water storage tank 60 is provided to surround the hot water storage tank 40, and stores the heating water of a temperature higher than the temperature of the hot water stored in the hot water storage tank 40 is stored in the hot water storage tank (40) Heat exchange with hot water. Here, the temperature of the heating water stored in the heating water storage tank 60 is maintained at 60 ° C to 85 ° C.

That is, since the temperature of the heating water stored in the heating water storage tank 60 is maintained at a temperature higher than the temperature of the hot water of the hot water storage tank 40 is 60 ° C to 85 ° C and the hot water of the hot water storage tank 40 Heat exchange to maintain the temperature of the hot water stored in the hot water storage tank 40 to at least 60 ° C.

In addition, the outer portion of the heating water storage tank 60 is provided to surround the heating water storage tank 60 is provided with a heat insulating material 61 for insulating the heating water storage tank 60 and the hot water storage tank 40.

The heating dedicated circulation pump 70 circulates the high temperature heating water stored in the heating water storage tank 60 to the heating pipe in the room through the heating water supply pipe 71. Here, the heating water supply pipe 71 is a pipe for discharging the high temperature heating water of the heating water storage tank 60 to the heating pipe in the room, and is provided with a heating exclusive circulation pump 70 and a heating sensor 73.

Here, the heating sensor 73 detects the temperature of the heating water when the heating water of the heating water storage tank 60 cools below 60 ° C, and sends a signal to the control unit (not shown), and the control unit (not shown) is dedicated to heating. The operation of the circulation pump 70 is stopped, and the main heat exchanger 10 is operated such that high temperature heating water of 60 ° C. or more flows into the heating water storage tank 60.

In addition, the heating water supply pipe (71) is provided with a second connecting pipe (75) connected to the heating return pipe (17), the second connecting pipe (75) heating introduced through the heating return pipe (17) when using the heating. The 2nd valve 77 which adjusts the quantity of water is provided.

That is, when the use amount of the lock of the second valve 77 is adjusted when the heating is used, and the flow rate of the heating water returned to the main heat exchanger 10 through the heating water return pipe 17 increases, Heating water is introduced into the heating water supply pipe (71). In addition, when the flow rate of the heating water returned to the main heat exchanger 10 through the heating return pipe 17 decreases, the heating water of a predetermined flow rate is introduced into the heating return pipe 71 through the second connecting pipe 75. Therefore, the overload of the pump 30 is prevented by adjusting the flow rate of the heating water flowing into the pump through the heating water return pipe 17.

In addition, the second valve is opened such that the heating water discharged from the heating water storage tank 60 is introduced into the main heat exchanger 10 through the second connecting pipe 75 when the heating is not used.

With this configuration, when the heating is used, the high temperature heating water supplied through the heating dedicated circulation pump 70 is supplied to the heating pipe in the room, and when the heating is not used, the second valve 77 is opened so that the high temperature heating water is opened. Through the second connecting pipe (75) is introduced into the heating return pipe (17). At this time, the heating water introduced into the heating water return pipe (17) is reheated in the main heat exchanger (10) and circulated to the heating water storage tank (60) through the heating water discharge pipe (19), and this process is repeated to continue the heating water. Heating water stored in the storage tank 60 is maintained at 60 ° C to 85 ° C.

The heating-only circulation pump 70 may use a pump of various capacities that differ in flow rate and head depending on the area to be heated. In addition, a plurality of heating dedicated circulation pumps 70 may be provided in the boiler system depending on the heating place. As a result, a heating dedicated circulation pump 70 can be provided according to the flow rate and head required for the heating place, thereby increasing the heating area, enabling rapid heating, and reducing fuel costs by reducing ON and OFF of the repeated boiler system. Can be saved.

Next will be described the operating state of the boiler system according to an embodiment of the present invention configured as described above.

2 is a view showing a heating operation state of the boiler system according to an embodiment of the present invention, Figure 3 is a view showing a hot water operation state of the boiler system according to an embodiment of the present invention.

First, look at the operating state when using the heating while the boiler system is running.

As shown in Figure 2, when the user operates a heating controller (not shown) installed in the room for heating the room, the main heat exchanger 10 and the hot water heat exchanger 20 by the signal of the heating controller (not shown). The heating direction of the three-way valve 15 provided between the opening and the hot water side is closed.

At the same time, the pump 30 is operated so that the heating water flows into the pipe portion 11 of the main heat exchanger 10, and the burner 13 of the main heat exchanger 10 heats the pipe portion 10 to the pipe portion 10. Flowing heating water is heated to a high temperature. In addition, the heating water heated to a high temperature is introduced into the heating water discharge pipe 18 through the three-way valve 15 and discharged into the heating water storage tank 60.

The high temperature heating water stored in the heating water storage tank 60 is maintained at a temperature of 60 ° C to 85 ° C, heat exchange with the hot water stored in the hot water storage tank 40 to maintain the temperature of the hot water at a minimum of 60 ° C. In addition, according to the operation of the heating dedicated circulation pump 70 is circulated to the heating pipe of the room through the heating water supply pipe 71 to heat the room.

When the heating is not in use, the second valve 77 is opened so that the high temperature heating water flows into the heating water return pipe 17 through the second connection pipe 75, and the heating water introduced into the heating water return pipe 17 is the main heat exchanger. Reheated at (10) and circulated to the heating water storage tank 60 through the heating water discharge pipe 19 to exchange heat with hot water stored in the hot water storage tank 40, so that the hot water stored in the hot water storage tank 40 is at least 60. Keep at ° C.

Next, look at the operating state when using the hot water supply while the boiler system is running.

As shown in FIG. 3, when the user turns on the faucet to use the hot water supply, a flow control sensor 23 provided in the water supply pipe 21 detects the inflow of cold water to control the three-way valve 15 (not shown). ), The heating direction of the three-way valve 15 is closed and the hot water side is opened by the control of a controller (not shown).

At the same time, the pump 30 is operated so that the high temperature heating water heated in the pipe 11 of the main heat exchanger 10 flows into the hot water heat exchanger 20 through the three-way valve 15. As the cold water passes through the hot water heat exchanger 20, the hot water and the cold water exchange heat, and the cold water is converted into hot water and discharged into the hot water storage tank 40 through the hot water discharge pipe 25.

Since the hot water stored in the hot water storage tank 40 exchanges heat with the heating water stored in the heating water storage tank 60, the temperature of the hot water is always maintained at a minimum of 60 ° C., and is supplied to the faucet through the hot water supply pipe 51. .

When the hot water supply is not in use, the first valve 57 is opened, the hot water pump 50 is operated, and the hot water is introduced into the water supply pipe 21 through the first connection pipe 55 and the hot water introduced into the water supply pipe 21. Is circulated to the hot water storage tank 40 through the hot water heat exchanger 20 through the hot water discharge pipe 25. Therefore, it is possible to always maintain the temperature of the hot water stored in the hot water storage tank.

As described above, since the hot water is always stored in the hot water storage tank of the boiler system of the present invention, hot water can be used immediately, and sufficient amount of hot water can be supplied even when hot water is used simultaneously in several faucets. In addition, the hot water of the heating water storage tank heat-exchanges with the hot water of the hot water storage tank to maintain a constant temperature of the hot water.

In addition, in addition to the pump for circulating the heating water to the main heat exchanger by providing a heating dedicated circulation pump for circulating the heating water to the heating pipe of the room, it is possible to heat a larger area with the same heat amount than the conventional boiler system.

As those skilled in the art to which the present invention pertains, the present invention may be modified in various ways without departing from the spirit of the present invention. .

10: main heat exchanger 11: piping
13: burner 15: three-way valve
17: heating water return pipe 19: heating water discharge pipe
21: water supply pipe 23: flow rate sensor
25: hot water discharge pipe 30: pump
40: hot water storage tank 50: hot water pump
51: hot water supply pipe 53: hot water supply sensor
55: first connector 57: first valve
60: heating water storage tank 61: insulation
70: dedicated circulation pump 71: heating water supply pipe
73: heating sensor 75: second connector
77: second valve

Claims (4)

A main heat exchanger for heating the heating water returned through a heating pipe, a hot water heat exchanger for converting the cold water into hot water by heat-exchanging the hot water discharged from the main heat exchanger and the cold water introduced into the water supply pipe, and the main heat exchanger. In a boiler system having a pump for circulating heating water,
A hot water storage tank storing hot water discharged from the hot water heat exchanger and supplying it to the outside;
A heating water storage tank provided to surround the hot water storage tank to store the high temperature heating water discharged from the main heat exchanger, and mutually heat-exchanging the high temperature heating water and the hot water stored in the hot water storage tank;
And a heating dedicated circulation pump circulating the high temperature heating water stored in the heating water storage tank to a heating pipe. The method of claim 1,
A hot water pump circulating hot water stored in the hot water storage tank to the hot water heat exchanger when the hot water is not used;
And a first valve for controlling hot water introduced from the hot water storage tank by the operation of the hot water supply pump to the hot water heat exchanger. The method of claim 1,
And a second valve for controlling the heating water discharged from the heating water storage tank to flow into the main heat exchanger when the heating is not used. The method of claim 1,
Boiler system, characterized in that the temperature of the heating water stored in the heating water storage tank is higher than the temperature of the hot water stored in the hot water storage tank.

Images