KR20110113985A - Boiler system and heating system having the same - Google Patents

Abstract

Hot water tank having a hot water outlet installed in the upper portion to supply high temperature hot water to the place of use, a second circulation outlet installed in the lower portion of the first circulation outlet installed in the middle portion, and an inlet source inlet, and from the first and second circulation outlets After receiving and mixing water at different temperatures, the circulation unit reheats the mixed water by heating it and supplies it to the hot water tank, and a heat exchanger installed in the circulation unit to raise the temperature of the mixed water through heat exchange with the mixed water. And a heating system including an instantaneous heating unit for circulating and recirculating a heat exchange medium condensed by heat exchange in a heat exchanger to a high temperature and circulating it.

Description

Boiler System and Heating System {BOILER SYSTEM AND HEATING SYSTEM HAVING THE SAME}

The present invention relates to a boiler system, and more particularly, to a boiler system and a heating system having the same, which can circulate and supply water in a thermal insulation tank effectively.

In general, a boiler system has a small household boiler system used for heating and hot water supply at home, and there is also a large boiler system used in a large building, a bath and a sauna.

In the case of a domestic boiler system, an oil boiler, a gas boiler, and an electric boiler are mainly used, and a small amount of hot water supply system uses a small amount of hot water without heating a hot water tank.

On the other hand, in the case of a large-capacity boiler system used in a building, a bath, a sauna, etc., since a large amount of hot water is required, it is common to provide a large-capacity hot water tank for storing hot water separately.

Therefore, hot water is stored in the hot water tank more than a certain level so that the hot water stored in the hot water tank can be supplied and used, and a heater for heating the water in the hot water tank is provided in the hot water tank.

In other words, after supplying the inlet water to the hot water tank, the water in the hot water tank is heated to maintain a certain temperature or more, and the hot water can be continuously supplied by replenishing the inlet water as much as the hot water is used and continuously heating it. Will be.

By the way, in the case of the large-capacity boiler system as described above, since a large amount of water is stored in the large-capacity hot water tank, it is not easy to heat the water in a short time.

In the case of a hot water tank, if its capacity is large, a difference occurs in the temperature of water in each of the upper, middle, and lower parts of the hot water tank. Therefore, it is not easy to keep the hot water constant, and a large amount of water can be stored within a short time. There is a problem that it is not easy to supply by heating to a high temperature.

The present invention has been made in view of the above, and an object thereof is to provide an improved boiler system and a heating system having the same, which can effectively supply and heat water in a hot water tank.

Boiler system of the present invention for achieving the above object, the hot water outlet is installed on the top to supply hot water to the destination, the first circulation outlet is installed in the middle, the second circulation outlet and the inlet source inlet Hot water tank having; A circulation unit configured to receive and mix water having different temperatures from the first and second circulation outlets, respectively, and then heat the mixed water to resupply the hot water tank; A heat exchanger installed in the circulation unit to increase the temperature of the mixed water through heat exchange with the mixed water; And an instantaneous heating unit for circulating the heat exchange medium condensed by the heat exchange in the heat exchanger at a high temperature to be re-supplied and circulated.

Here, the circulation unit, the first discharge path is connected to the first circulation outlet for moving the hot water in the middle portion of the hot water tank; A second discharge path connected to the second circulation outlet to move cold water at a lower portion of the hot water tank; A three-way mixing valve connected to each of the first and second discharge paths to mix hot and cold water of different temperatures moved through the first and second discharge paths; A mixed water supply path connecting the upper portion of the three-way mixing valve and the hot water tank to transfer the mixed water mixed in the three-way mixing valve via the heat exchanger; And a circulation pump installed on the mixed water supply path.

In addition, it is preferable that a circulation inlet for recovering the hot water of which the temperature rises while moving through the mixed water supply path is installed above the hot water tank.

In addition, the circulation unit is dispersed and recombined while moving the heat exchange medium recovered from the heat exchanger from the lower portion through the heat exchange medium inlet formed at the bottom to reheat step by step to be recirculated to the heat exchanger through the outlet formed at the upper portion. A heating engine to perform; First, second, and third heating heaters installed in stages from the bottom of the heating engine to the top to gradually heat the heat exchange medium moving from the bottom of the heating engine to the top; And a circulation pump installed on a heat exchange medium circulation path connecting the heating engine and the heat exchange unit.

The heating engine may further include: a first engine having an inlet through which a heat condensation medium condensed is introduced, and the first heating heater installed therein; It is installed on the upper part of the first engine, and moves the heat exchange medium primarily heated by the first heating heater in the first engine to be heated second and third by the second and third heating heater, The second engine is formed with a discharge port for discharging the heated heat exchange medium; And a plurality of connection passages for branching the heat exchange medium of the first engine to both sides and guiding them to be supplied to the second engine, respectively, wherein the first engine is provided with a pair of the first heating heaters. The second engine is preferably provided with a pair of the second heating heater, the third heating heater is installed on the upper portion of the second heating heater.

The circulation unit may further include an inlet at which a heat exchange medium condensed in the heat exchanger is recovered, an outlet for supplying the heat exchange medium reheated to the heat exchanger, and a housing in which the heating engine is installed. It is better to include more.

In addition, the heating system of the present invention for achieving the above object,

A hot water tank having a hot water outlet installed at an upper portion to supply high temperature hot water to a use place, a first circulation outlet installed at a middle portion, a second circulation discharge port installed at a lower portion thereof, and an inlet source water inlet; A circulation unit configured to receive and mix water having different temperatures from the first and second circulation outlets, respectively, and then heat the mixed water to resupply the hot water tank; A heat exchanger installed in the circulation unit to increase the temperature of the mixed water through heat exchange with the mixed water; And an instantaneous heating unit configured to circulate by reheating the heat exchange medium condensed by heat exchange in the heat exchanger to a high temperature at a high temperature.

A hot water supply pipe for supplying hot water from the hot water tank of the boiler system to a heating place; A heating pipe installed at the heating place and connected to the hot water supply pipe; A hot water recovery pipe connected to the outlet side of the heating pipe and connected to the hot water tank; And a heating pump installed in the hot water supply pipe or the hot water recovery pipe.

According to the boiler system and heating system of the present invention, the hot water inside the hot water tank is removed from a plurality of points, and the mixed water mixed with the heat exchanger is circulated to the heat exchanger to obtain a temperature suitable for instant heating. Can be fed back to the tank. Therefore, the water temperature in the upper portion of the hot water tank, that is, the discharge portion can be maintained at an appropriate temperature that can be used in the hot water.

In particular, since the heat exchange medium for heat exchange in the heat exchanger can be circulated by instantaneously heating to a high temperature using the instantaneous heating unit, the temperature of the mixed water in the heat exchanger can be changed to a high temperature in a short time even with a low capacity instantaneous heating unit. It is possible to raise, and it is possible to effectively supply the temperature of the mixed water.

In addition, there is an advantage that can be supplied while securing and maintaining a sufficient amount of hot water regardless of the amount of hot water used in buildings, baths and saunas.

In addition, there is an advantage that can quickly increase the heating temperature, and maintain a constant while quickly supplying and recovering hot water for heating in a heating place that requires heating.

1 is a schematic configuration diagram showing a boiler system according to an embodiment of the present invention.
Figure 2 is a perspective view showing the instantaneous heating unit shown in FIG.
Figure 3 is a perspective view showing the extraction of the heating engine of the instantaneous heating unit shown in FIG.
4 is a cross-sectional view showing the instantaneous heating unit shown in FIG.
Figure 5 is a schematic diagram showing a boiler system according to another embodiment of the present invention.
6 is a schematic configuration diagram showing a heating system according to an embodiment of the present invention.

Hereinafter, a boiler system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1, 2 and 3, the boiler system 100 according to an embodiment of the present invention, the hot water tank 110 and the water of the hot water tank 110 to the outside of the hot water tank 110 Circulating unit 120 for circulating and re-supplying, the heat exchanger 130 installed on the circulation unit 120, and the moment for circulating supplying the heat exchange medium to the heat exchanger 130 by instantaneous heating The heating unit 140 is provided.

The hot water tank 110 is provided to store a large amount of hot water for use in hot water, hot water supply, etc. in advance as a large capacity. The hot water tank 110 is provided with a hot water outlet 111, the inlet water inlet 112, the first and second circulation outlets 113, 114 and the circulation inlet 115.

In addition, one or more temperature sensors 151, 152, 153 for measuring the temperature of the hot water may be installed in different locations in the hot water tank 110. For example, each of the three temperature sensors 151, 152, 153 may be installed at each of the upper, middle, and lower portions of the hot water tank 110 to measure the temperature of each position of the hot water in the hot water tank 110.

The hot water outlet 111 is installed at the top of the hot water tank 110, is connected and installed to supply the hot water of the upper portion of the highest temperature among the hot water tank 110 to the place where necessary.

The inlet water inlet 112 is installed to be connected to the inlet water supply unit such as tap water or groundwater, and is connected to the lower portion of the hot water tank 110 to supply the inlet water to the lowest portion of the hot water tank 110. Therefore, the low temperature inflow source water is supplied to the lower portion of the hot water tank 110, so that the temperature of the hot water of the uppermost part having the highest temperature is not suddenly lowered.

The first circulation outlet 113 is installed in the middle portion of the hot water tank 110, the second circulation outlet 114 is installed in the lower portion of the hot water tank 110. Therefore, the hot water at an intermediate position corresponding to a relatively medium temperature among the hot water in the hot water tank 110 is discharged to be instantly heated and recovered through the first circulation outlet 113. And through the second circulation outlet 114, the lowest temperature of the hot water in the hot water tank 110, that is, cold water is mixed with the hot water discharged through the first circulation outlet 113 is instantaneously heated together and recovered again To be discharged.

The circulation inlet 115 is connected to the upper portion of the hot water tank 110, and re-supply the hot water heated by the heat exchanger 130 to the uppermost portion of the hot water tank 110. Preferably, the circulation inlet 115 is installed at a position adjacent to the hot water outlet 111, so that the hot water of the hot water is supplied to the place of use as it is while maintaining the high temperature state through the hot water outlet 111.

The circulation unit 120 is for supplying hot water and cold water of a plurality of points inside the hot water tank 110 to be heated by heat exchange in the heat exchanger 130 and then resupply to the top of the hot water tank 110. The circulation unit 120 includes first and second discharge paths 121 and 122, a three-way mixing valve 123, a mixed water supply path 124, and a circulation pump 125.

The first discharge path 121 is connected to the first circulation outlet 113 and the three-way mixing valve 123 so as to circulate hot water at an intermediate temperature at an intermediate position in the hot water tank 110.

The second discharge path 122 is installed to connect the second circulation outlet 114 and the three-way mixing valve 123 to circulate cold water at a lower temperature in the hot water tank 110.

The three-way mixing valve 123 mixes hot and cold water having different temperatures moved in the first and second discharge paths 121 and 122, and moves the mixed mixed water to the mixed water supply path 124. Is installed. The three-way mixing valve 123 may be controlled to open and close the drive by a control unit not shown. That is, the mixed water mixed by the three-way mixing valve 123 is maintained at a constant temperature in the range of approximately 35 to 40 ℃ can be moved toward the heat exchanger (130). The three-way mixing valve 123 is an electronic mixing valve, which is electronically controlled to control the temperature of the mixed water to a desired temperature.

The mixed water supply path 124 is installed to connect the three-way mixing valve 123 and the circulation inlet 115, and heat the mixed hot water while passing through the heat exchanger 130, the circulation inlet 115 Through the re-supplied to the upper portion of the hot water tank 110 inside. The circulation pump 125 and the heat exchanger 130 are respectively installed on the mixed water supply path 124. The circulation pump 125 provides a pumping force so that water of different temperatures may be mixed and circulated through the first and second discharge paths 121 and 122.

The heat exchanger 130 is installed on the mixed water supply path 124 to raise the mixed water to a temperature of up to 98 ° C through heat exchange with the mixed water moved through the mixed water supply path 124, The high temperature water of which temperature is increased is resupplied to the hot water tank 110.

The heat exchanger 130 is a plate heat exchanger having a high heat exchange efficiency, and has a mixed water inlet 131a and a mixed water outlet 131b connected to each of the supply paths 124 on one side.

In addition, the heat exchange medium inlet 132a and the heat exchange medium outlet 132b are formed at the other side of the heat exchange container 131 so as to be connected to the instantaneous heating unit 140 to circulate the heat exchange medium.

Therefore, through the heat exchange medium inlet 132a, a heat exchange medium heated at a high temperature, that is, at a maximum temperature of 100 ° C. to 130 ° C., is introduced into the instantaneous heating unit 140 to exchange heat with the mixed water, thereby mixing 35 ° C. to 40 ° C. To a high temperature of up to 98 ° C., and the condensed heat exchange medium is discharged through the heat exchange medium outlet 132b to be recovered back to the instantaneous heating unit 140.

The instantaneous heating unit 140 is for circulating to the heat exchanger 130 by rapidly heating the heat exchange medium to a high temperature. 1, 2, 3 and 4, the instantaneous heating unit 140, the housing 210, the heating engine 220 is installed in the housing 210, and the heating engine First, second and third heaters 231, 232, 233 and a circulation pump 243 for sequentially heating the heat exchange medium circulating therein are provided.

The heating engine 220 is accommodated and installed in the housing 210, and an outlet 211 and an inlet 212 of the heat exchange medium are respectively installed at upper and lower portions thereof. Through the outlet 211, the heat exchange medium heated up to 130 ° C. is supplied to the heat exchange medium inlet 132a of the heat exchanger 130 through the first net environment path 241, and the heat exchanger 130 is connected to the inlet 212. The heat exchange medium condensed by heat exchange is introduced through the second net environment path 242 connected to the heat exchange medium outlet 132b of To this end, the circulation pump 243 is installed in the second circulation environment path 242 to force circulation of the heat exchange medium.

The heating engine 220 includes a lower first engine 221, a connection passage 222, and a second engine 223.

The first and second engines 221 and 223 are connected to each other at two points by the connection passage 222, and the heat exchange medium heated primarily by the first engine 221 is heated by the connection passage 222 to the second point. May be moved to engine 223.

The first engine 221 is branched from the first engine inlet 221a having a plurality of inlets 221c through which the heat exchange medium condensed therein is formed and the first engine inlet 221a, respectively. It has a pair of second engine heating portion (221b) formed. The connection passage 222 is connected to an upper portion of each of the pair of second engine heating units 221b. In addition, the first heating heater 231 is installed in each of the pair of second engine heating parts 221b, thereby moving toward the connection passage 222 through the pair of second engine heating parts 221b. The first heat exchange medium is heated. That is, the heat exchange medium recovered through the inlet 221c is branched and moved from the first engine inlet 221a to the pair of second engine heating units 221b, respectively, and the pair of first engine heating units 221b. In the first heating heater 131 is heated instantaneously by the first heating temperature is increased to the second engine 223 through the connection passage 222.

The second engine 223 has a second engine discharge part 223a having a discharge port 223c in the upper part, and a pair of second engines which are formed to be symmetrically branched from both side lower parts of the second engine discharge part 223a, respectively. The heating part 223b is provided.

Each of the pair of second engine heating units 223b is connected to the connection passage 222 so that the heat exchange medium primarily heated in the first engine 221 is introduced. Each of the pair of second engine heating units 223b is provided with the second heating heater 232 to thereby instantly heat the heat exchange medium moved through the connection passage 222 for a second time to increase the temperature, and to heat the second heating. The heat exchange medium is moved to the second engine discharge unit (223a).

The second engine discharge unit 223a is a portion in which the second heat exchange medium is collected again in each of the pair of second engine heating units 223b, and a third heating heater 233 is installed. Therefore, the heat exchange medium collected by the second engine discharge unit 223a is instantaneously heated in a third manner by the third heating heater 233 to become a high temperature of 100 ° C. to 130 ° C., and is discharged through the discharge port 223c to exchange the heat exchanger 130. ) Can be supplied.

The first heating heater 231 is provided with a pair, and each of the first heating heater 231 is installed in the first engine heating unit 221b to heat the moving heat exchange medium firstly and move to the second engine heating unit 223b. do.

The second heating heater 232 is also provided with a pair, each of which is installed in the second engine heating unit 222b and heats the heat exchange medium that is heated by the first momentary heat up to the second to increase the temperature.

In addition, one third heating heater 233 is provided and installed in the second engine discharge part 223a. Therefore, the third heating heater 233 is heated secondarily by the second heating heater 232, and then heats up the heat exchange medium that is collected thereafter to be instantaneously heated to third to be discharged to the outlet 223c.

The first to third heating heaters 231, 232 and 233 installed as described above may include electric heaters having heating coils disposed therein to generate instantaneous high temperature heat when electric energy is applied.

As described above, the configuration of the heating engine 220 is a front shape of the diamond shape, and the heat exchange medium flows in both primary and secondary while dispersing and moving to both sides, and then mixed again In the state, the third heating can be instantaneously heated. In this way, the heat exchange medium moving from the bottom to the top is instantaneously heated to increase the temperature while dispersing and mixing the heat exchange medium, and is instantaneously heated by the second and third heating to sequentially reheat the heat exchange medium to a high temperature. It becomes possible to circulate. Therefore, by heating the condensed heat exchange medium while moving upward from the lower portion of the heating engine 220 to the high temperature again, it is supplied to the heat exchanger 130 and circulated, thereby effectively heating the temperature of the mixed water passing through the heat exchanger 130. It becomes possible.

On the other hand, the temperature of the mixed water in the three-way mixing valve 123 is adjusted on the basis of the measured temperature at each temperature sensor (151, 152, 153) in the hot water tank 110, and the driving of the circulation pump 125 By controlling the driving of the instantaneous heating unit 140, that is, the heating temperature, the hot water temperature inside the hot water tank 110 can be adjusted.

Hereinafter will be described in more detail with respect to the effect of the boiler system according to an embodiment of the present invention having the above configuration.

First, the hot water in the hot water tank 110 is different in temperature at each of the upper, middle, lower. For example, the temperature of the upper portion of the hot water tank 110 is about 70 ~ 80 ℃, the intermediate temperature is about 45 ~ 60 ℃, the lower temperature may be a temperature of 20 ℃ or less. That is, when the inflow source water is tap water, the temperature of the cold water in the lower portion of the hot water tank 110 has a temperature of 3 to 15 ℃ in winter, 12 to 16 ℃ in winter in the case of ground water, after all the hot water tank (100) ) Cold water of lower part becomes 10-15 degreeC.

As described above, in the state where the temperature of the hot water in the hot water tank 110 varies by part, water of different temperatures is discharged through the first and second discharge paths 121 and 122 and mixed in the 3-way mixing valve 123. do.

Therefore, the temperature of the mixed water mixed in the three-way mixing valve 123 maintains a temperature in a range of approximately 35 ~ 40 ℃, this temperature is automatically controlled by the electronically controlled three-way mixing valve 123 Can be controlled.

The mixed mixed water is heated by heat exchange with a high temperature heat exchange medium in the heat exchanger 130 while passing through the heat exchanger 130 through the mixed water supply path 124 to increase the temperature. The hot water whose temperature is increased by heat exchange in the heat exchanger 130 is resupplied to the upper portion of the hot water tank 110 through the circulation inlet 115 at a temperature of up to 98 ° C.

Therefore, the hot water temperature of the upper portion of the inside of the hot water tank 110 can be maintained at a temperature suitable for use as a hot water supply, for example, at a high temperature between 70 to 80 ° C., thereby providing and operating the hot water efficiently. It becomes possible.

On the other hand, in order to increase the temperature by the heat exchange of the mixed water in the heat exchanger 130, a high temperature heat exchange medium of 100 ~ 130 ℃ is supplied from the instantaneous heating unit 140 is provided. And the heat exchange medium condensed by heat exchange is approximately 55 ~ 65 ℃ is recovered back to the instantaneous heating unit 140 is instantaneous heating in the heating engine 220 is heated to a high temperature and then supplied back to the heat exchanger (130) By repeating the process, it is possible to heat the hot water in the hot water tank 110 quickly and efficiently.

At this time, the mixed water discharged from the hot water tank 110 and mixed at a temperature of 35 ~ 40 ℃ is introduced into the inlet (131a) of the lower end of the heat exchanger 130, the flow of the fluid is a counter flow, heat exchanger ( 130, the high temperature water (maximum discharge water temperature 98 ℃) through the heat exchange medium and heat exchange introduced into the heat exchange medium inlet (132a) of the other side is recovered to the hot water tank (110). In addition, the heat exchange medium is condensed at 55 to 66 ° C. through heat exchange in a state in which the heat exchange medium is not mixed with the mixed water, and the process returns to the heating engine 220.

Here, rather than the case where the temperature of the mixed water flowing into the thermal bridge 130 is, for example, 10 ℃, inflow to a temperature of 33 ~ 40 ℃ using the three-way mixing valve 123 as in the embodiment of the present invention If possible, it is possible to improve the heating efficiency of the boiler by allowing a higher temperature hot water (hot water) to come out with the same electric capacity.

As such, when the boiler system 100 having a configuration capable of effectively heating the heat exchange medium to a high temperature in a short time using the instantaneous heating unit 140 is used, the water in the hot water tank 110 is stable at a high temperature. It can be maintained as, there is an advantage that can continuously supply hot water regardless of the amount used.

In addition, even if a small capacity of the instantaneous heating unit 140 is adopted, it is possible to secure and supply a sufficient amount of hot water, there is an advantage that can reduce the installation space, the use of the facility.

In addition, in the case of the boiler system 100 according to the embodiment of the present invention having the above configuration, the water of the hot water tank 110 does not flow into the instantaneous heating unit 140, and a small amount of medium, that is, water or other heat exchanger. By configuring only the medium in a manner that circulates on the inner cycle, no foreign matter or scale is generated on the inner cycle, thereby increasing the lifespan and durability of the first to third heating heaters 231, 232, 233, which are heating elements.

5, the boiler system 100 ′ according to another embodiment of the present invention includes an instantaneous heating unit 140 ′ excluding the housing 210 described in FIG. 1. have.

In this case, the inlet side of the first net environmental path 241 is directly connected to the outlet side of the upper part of the heating engine 220, and the outlet side of the second net environmental path 242 is directly connected to the inlet side of the lower part of the heating engine 220. Connected.

In addition, referring to Figure 6, the heating system 400 according to an embodiment of the present invention is a heating place for the hot water heated by the boiler system 100 and the boiler system 100 described above with reference to FIGS. Hot water supply pipe 320 to be supplied to the 300, the heating pipe 310 is installed in the heating place 300, and the hot water recovery connected to the hot water tank 110 is connected to the outlet side of the heating pipe 310 A heating pump 340 is installed in the pipe 330 and the hot water supply pipe 320.

In this case, the heating place 300 may include a main space such as a room, a living room, a kitchen, a bathroom, and the like, and may include a specific space of a general building. In this case, the heating pipe 310 may have a structure to be zigzag buried in the floor, when installed in the space on the floor, may be installed in the manner of a heat exchanger.

The hot water supply pipe 320 is connected to the upper portion of the hot water tank 110, it is connected to the hot water outlet 111 described above as an example, it may be connected to supply the heating pipe 310 to the hot water as a medium. .

The hot water recovery pipe 330 is one end is connected to the heating pipe 310, the other end, that is, the outlet side is connected to the lower portion of the hot water tank 110, the hot water used for heating, that is, the temperature is lowered hot water tank 110 ) To be recovered and heated again.

Of course, the heating pump 340 may be installed in the hot water recovery pipe 330.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

100,100 '.. boiler system 110..hot water tank
120. Circulation unit 130. Heat exchanger
140. Instantaneous heating unit 210. Housing
220. Heating engines 231, 232, 233 First, second and third heating heaters

Claims (7)

A hot water tank having a hot water outlet installed at an upper portion to supply high temperature hot water to a use place, a first circulation outlet installed at a middle portion, a second circulation discharge port installed at a lower portion thereof, and an inlet source water inlet;
A circulation unit configured to receive and mix water having different temperatures from the first and second circulation outlets, respectively, and then heat the mixed water to resupply the hot water tank;
A heat exchanger installed in the circulation unit to increase the temperature of the mixed water through heat exchange with the mixed water; And
And an instantaneous heating unit configured to circulate the heat exchange medium condensed by the heat exchange in the heat exchanger at a high temperature to be re-supplied and circulated. According to claim 1, wherein the circulation unit,
A first discharge path connected to the first circulation outlet to move hot water in an intermediate portion of the hot water tank;
A second discharge path connected to the second circulation outlet to move cold water at a lower portion of the hot water tank;
A three-way mixing valve connected to each of the first and second discharge paths to mix hot and cold water of different temperatures moved through the first and second discharge paths;
A mixed water supply path connecting the upper portion of the three-way mixing valve and the hot water tank to transfer the mixed water mixed in the three-way mixing valve via the heat exchanger; And
Boiler system comprising a; circulation pump installed on the mixed water supply path. 3. The boiler system according to claim 2, wherein a circulation inlet for recovering the hot water of which the temperature rises while moving through the mixed water supply path is installed at an upper portion of the hot water tank. According to any one of claims 1 to 3, wherein the circulation unit,
A heating engine configured to disperse and recombine the heat exchange medium recovered from the heat exchanger through a heat exchange medium inlet formed at a lower portion thereof and to re-heat step by step to recirculate the heat exchange medium through the outlet formed at the upper portion;
First, second, and third heating heaters installed in stages from the bottom of the heating engine to the top to gradually heat the heat exchange medium moving from the bottom of the heating engine to the top; And
And a circulation pump installed on a heat exchange medium circulation path connecting the heating engine and the heat exchange unit. The method of claim 4, wherein the heating engine,
A first engine having an inlet through which a condensed heat exchange medium is introduced, and the first heating heater installed therein;
It is installed on the upper part of the first engine, and moves the heat exchange medium primarily heated by the first heating heater in the first engine to be heated second and third by the second and third heating heater, The second engine is formed with a discharge port for discharging the heated heat exchange medium; And
And a plurality of connection passages for branching the heat exchange medium of the first engine to both sides and guiding them to be supplied to the second engine, respectively.
The first engine is provided with a pair of the first heating heater,
The second engine is a pair of the second heating heater is installed, the boiler system, characterized in that the third heating heater is installed on the upper portion of the second heating heater. The method of claim 4, wherein the circulation unit,
And a housing having an inlet at which a heat exchange medium condensed in the heat exchanger is recovered and an outlet for supplying a heat reheating medium reheated at an upper portion to the heat exchanger, and further comprising a housing in which the heating engine is installed. Boiler system. The boiler system according to any one of claims 1 to 6; And
A hot water supply pipe for supplying hot water from the hot water tank of the boiler system to a heating place;
A heating pipe installed at the heating place and connected to the hot water supply pipe;
A hot water recovery pipe connected to the outlet side of the heating pipe and connected to the hot water tank; And
And a heating pump installed in the hot water supply pipe or the hot water recovery pipe.

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