KR20160012331A - Initial temperature tapping prevention device and prevention method thereof - Google Patents

Abstract

The present invention relates to an initial high temperature anti-tapping device and a method thereof while using hot water in boiler with one tube and two channels. A bypass pipe is installed between a water inlet and a hot water tapping pipe of a secondary heat exchanger of the boiler with one tube and two channels. A control unit compares a tapping temperature of the secondary heat exchanger to a hot water set temperature of a user, wherein the tapping temperature is detected from a heat exchanger tapping temperature detection sensor, and automatically controls an opening and closing amount of an electric flow control valve which supplies water using hot water supplied to the user by corresponding to the difference in the temperature. The hot water tapping temperature detection sensor which detects the temperature of hot water supplied to an actual user in real time and transmits the temperature to the control unit is installed on the lower part of a region connected to the bypass pipe in the hot water tapping pipe. The control unit compares an actual hot water temperature detected from the hot water tapping temperature detection sensor to the hot water set temperature of the user and automatically controls the opening and closing amount of the electric flow control valve by corresponding to the difference in temperature. Therefore, an accident such as a scald caused by high-temperature hot water regardless of user′s intention when initially using hot water is prevented. The present invention secures safety when using hot water and eliminates the discomfort of the user. Furthermore, the present invention significantly improves the performance, reliability, etc. of the boiler with one tube and two channels by hot water temperature control.

Description

Technical Field [0001] The present invention relates to a hot water tapping prevention device,

The present invention relates to an apparatus and a method for preventing high-temperature hot water from being used in a hot water boiler in a one-channel two-channel boiler, and more particularly, A bypass pipe provided with an electric flow rate control valve is provided between the direct water inlet pipe of the secondary heat exchanger and the hot water outlet pipe and the control unit controls the control unit to control the temperature of the heat exchanger hot water discharged from the secondary heat exchanger, The amount of hot water directly supplied to the bypass pipe is compared with the set temperature of the user to determine the difference, and the amount of opening and closing of the electric flow rate control valve installed in the bypass pipe corresponding to the temperature difference is automatically controlled, A part of the direct water is automatically mixed with the hot water discharged after being heated in the machine, Doemeuro regardless of the doctor of the hot water tapping is invented to prevent accidents such as burns that could be caused in advance.

In general, boilers are used to heat water by using combustion heat and heat generated by using oil, coal and gas as fuel and burning it or supplying electricity to a heater, and to supply hot water to various heating facilities In the case of a domestic boiler, hot water is supplied to the piping installed on the floor or the like of the room, and the hot water is supplied through the hot water discharge pipe.

Most of such conventional boilers have a main heat exchanger, a secondary heat exchanger for hot water heating, three sides and a circulation pump, and heat the main heat exchanger by the combustion heat of the burner. In addition, The heating medium circulating in the main heat exchanger is connected to the hot water side through the three sides of the hot water for indirectly heating the hot water for heating 2 Exchanging heating coils of the secondary heat exchanger to circulate the heat-radiating heating coils of the primary heat exchanger of the secondary heat exchanger to heat hot water flowing through the secondary heat-exchanging heating coils of the secondary heat exchanger.

However, most of the conventional one-pipe two-channel boilers do not have the function of preventing the high temperature hot water from being used at the initial stage of hot water use. If the hot water is used in the heating by using the one- In case of inputting an excessive input to increase the temperature, the result of using the hot water in the state that the temperature of the heating circulation water has reached the high temperature, the hot water is heated in the secondary heat exchanger by the heating water to the high temperature There is a problem that the user feels burns or discomfort because the water is spouted.

Korean Utility Model Registration No. 20-0360511 (August 20, 2004) Korean Registered Patent No. 10-1030832 (April 15, 2011)

SUMMARY OF THE INVENTION The present invention has been accomplished in order to solve the above problems, and it is an object of the present invention to provide a boiler having a main heat exchanger and a hot water heating secondary heat exchanger, A bypass pipe having an electric flow rate control valve is provided between the direct water inlet pipe and the hot water outlet pipe and the control unit controls the temperature of the heat exchanger hot water discharged from the secondary heat exchanger or the hot water temperature of the hot water directly supplied to the user The amount of opening and closing of the electric flow rate control valve provided in the bypass pipe corresponding to the temperature difference can be automatically controlled by comparing the temperature difference with the set temperature of the user, It is possible to automatically dilute a part of the direct water into the hot water of the user, Doemeuro to the high-temperature hot water heated using the hot water in the first tube from two channels boiler capable of preventing the occurrence of accidents in advance, such as the image to provide an initial high-temperature hot water prevention apparatus and a method it is an object.

According to an aspect of the present invention, there is provided an apparatus for heating a hot water, comprising: a main heat exchanger for heating heating water directly by using combustion heat of a burner or heating water required for heating hot water; A secondary heat exchanger provided with a heat-dissipating heating coil and a heat-exchanging heating coil and heating the direct water using the temperature of water supplied from the main heat exchanger to provide hot water to a user; A water flow switch installed in the direct water inflow pipe of the secondary heat exchanger to detect an electric signal when the hot water is used; A three-way valve for supplying water discharged from the main heat exchanger to one of a heating pipe and a heat-dissipating heating coil of a secondary heat exchanger; A circulation pump for forcibly pumping hot water flowing through a heat-radiating heating coil of a heating pipe or a secondary heat exchanger discharged from the main heat exchanger in response to the three-side switching direction, and returning the hot water to the main heat exchanger side; A heat exchanger hot water temperature detection sensor installed in the hot water outlet of the secondary heat exchanger for detecting the temperature of the hot water discharged from the secondary heat exchanger; A key input unit for inputting various key signals including hot water and a heating set temperature; And a control unit for performing a control function of the boiler including driving control of the burner, three sides and a circulation pump by performing a control program input in the boiler, A bypass pipe provided with an electric flow rate control valve is provided between the inflow pipe and the hot water hot water pipe and the control unit controls the hot water temperature setting temperature of the user to be compared with the tap water temperature of the secondary heat exchanger detected through the heat exchanger tap water temperature detection sensor The amount of opening and closing of the electric flow rate control valve is automatically controlled so as to obtain the difference and then to introduce hot water to the user in accordance with the temperature difference.

According to another aspect of the present invention, there is provided a known one-pipe two-channel boiler, in which a motorized flow rate control valve is provided between a direct water inlet pipe and a hot water outlet pipe of the secondary heat exchanger And a hot water hot water temperature sensor for detecting the temperature of the hot water supplied to the actual user in real time and transmitting the detected temperature to the control unit is provided below the portion where the bypass pipe is connected to the hot water hot water pipe, The hot water tap temperature detecting sensor compares hot water set temperatures of the user with respect to the actual hot water temperature detected by the hot water hot water temperature detecting sensor and automatically controls the amount of opening and closing of the electric flow rate adjusting valve corresponding to the difference.

According to another aspect of the present invention, there is provided a method of operating a boiler, the method comprising: determining whether a water flow switch is turned on due to use of hot water by a user when a burner of the boiler is turned on; When the water flow switch is in the ON state, the hot water set temperature of the user inputted through the key input unit and the hot water temperature of the secondary heat exchanger detected through the heat exchanger hot water temperature detecting sensor installed at the beginning of the hot water hot water tank of the secondary heat exchanger Determining a mutual comparison; Calculating a difference between positive temperatures if the hot water temperature of the secondary heat exchanger is higher than or equal to the user hot water set temperature; The electric flow rate control valve on the bypass pipe provided between the direct water inlet pipe and the hot water outlet pipe of the secondary heat exchanger is adjusted to the amount of opening and closing determined according to the temperature difference calculated in the above step, And returning to the step of detecting the water flow switch state after the water is diluted and the temperature is lowered.

As a result of comparison between the hot water set temperature of the user and the hot water temperature of the secondary heat exchanger, if the hot water temperature of the secondary heat exchanger is lower than the hot water set temperature of the user, Closing the electric flow rate control valve provided in the bypass pipe between the boiler tubes and returning to the step of detecting the water flow switch state.

According to another aspect of the present invention, there is provided a method of operating a boiler, comprising: determining whether a water flow switch is turned on due to use of hot water by a user when a burner of the boiler is turned on; When the water flow switch is in the ON state, the hot water set temperature detected by the hot water set temperature sensor installed at the end of the hot water outlet pipe of the secondary heat exchanger and the user's hot water set temperature inputted through the key input unit are directly supplied to the user Comparing the actual hot water temperature of the hot water with each other; Calculating a difference between both temperatures if the actual hot water temperature of the hot water directly supplied to the user is higher than or equal to the user hot water set temperature; The electric flow rate control valve on the bypass pipe provided between the direct water inlet pipe and the hot water outlet pipe of the secondary heat exchanger is adjusted to the amount of opening and closing determined according to the temperature difference calculated in the above step, And returning to the step of detecting the water flow switch state after the water is diluted and the temperature is lowered.

As a result of comparison between the hot water set temperature of the user and the actual hot water temperature of the hot water directly provided to the user, if the hot water actual hot water temperature directly provided to the user is lower than the hot water set temperature of the user, Closing the electric flow control valve provided in the bypass pipe between the direct water inlet pipe and the hot water outlet pipe and returning to the step of detecting the water flow switch state.

As described above, according to the present invention, there is provided an apparatus for preventing high-temperature hot water from being used in a hot water boiler at the early stage of hot water use in a one-channel two-channel boiler, In the channel type boiler, a bypass pipe having an electric flow rate control valve is provided between the direct water inlet pipe of the secondary heat exchanger and the hot water outlet pipe, and the control unit controls the control unit to control the temperature of the heat exchanger hot water discharged from the secondary heat exchanger The hot water tap temperature directly supplied to the user is compared with the set temperature of the user to obtain the difference, and the opening / closing amount of the electric flow rate control valve installed in the bypass pipe corresponding to the temperature difference can be automatically controlled A part of the direct water can be automatically mixed with the hot water discharged after being heated through the car heat exchanger to be diluted The use of hot water can prevent the occurrence of safety accidents such as burns due to hot water being spouted irrespective of the intention of the user at the initial stage, thereby securing safety according to the use of hot water and relieving user discomfort In particular, it is a very useful invention that can greatly improve the merchantability and reliability according to the hot water temperature control for a one-pipe two-channel boiler.

1 is a block diagram of a one-pipe two-channel boiler to which one embodiment of the present invention is applied;
2 is a schematic view of a one-pipe two-channel boiler to which another embodiment of the present invention is applied;
FIG. 3 is an electronic block diagram of a one-pipe two-channel boiler provided with the present invention apparatus.
4 is a flow chart for explaining an embodiment of the method of the present invention.
5 is a flow chart for explaining another embodiment of the method of the present invention.
FIG. 6 is a graph for comparing the temperature of hot water discharged from a 1-pipe 2-channel boiler and a conventional 1-pipe 2-channel boiler to which the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a configuration diagram of a one-channel two-channel boiler to which one embodiment of the present invention is applied, FIG. 2 shows a configuration diagram of a one-channel two-channel boiler to which another embodiment of the present invention is applied, 1 is a block diagram showing an electronic block diagram of a single-channel two-channel boiler.

According to this embodiment of the present invention,

A main heat exchanger (2) for directly heating the heating water using the combustion heat of the burner (1) or for heating the water required for heating the hot water; A second heat exchanger for hot water heating, which is provided with a heat-dissipating heating coil 33 and a heat-exchanging heating coil 31, for heating hot water using the temperature of water supplied from the main heat exchanger 2, 3); A water flow switch (12) installed in the direct water inflow pipe (32) of the secondary heat exchanger (3) and detecting an electric signal when hot water is used; Three sides (4) for supplying the water discharged from the main heat exchanger (2) to either the heating pipe or the heat-dissipating heating coil (33) of the secondary heat exchanger (3); The hot water flowing out through the heating pipe or the heat-dissipating heating coil 33 of the secondary heat exchanger 3 is forcibly pumped by the main heat exchanger 2 in response to the change direction of the three sides 4, A circulation pump 5 for returning to the heat exchanger 2 side; A heat exchanger outflow temperature detection sensor 6 provided in the hot water outlet pipe 34 of the secondary heat exchanger 3 for detecting the temperature of the hot water discharged from the secondary heat exchanger 3; A key input unit 13 for inputting various key signals including hot water and a heating set temperature; And a control unit 7 for performing overall control functions of the boiler including the driving control of the burner 1, the three sides 4, the circulation pump 5, In a two-channel boiler,

A bypass pipe 8 provided with an electric flow rate control valve 10 is provided between the direct water inflow pipe 32 of the secondary heat exchanger 3 and the hot water supply pipe 34 and the control unit 7 (TH1) of the secondary heat exchanger (3) detected through the heat exchanger tap water temperature detection sensor (6) to compare the hot water set temperature (Tset) of the user with the tap water temperature (TH1) The amount of opening and closing of the electric flow rate regulating valve 10 which controls the flow rate of the hot water supplied to the user in accordance with the temperature difference is obtained by obtaining the difference between the set temperature Tset and the set temperature Tset .

In another embodiment of the present invention apparatus,

A main heat exchanger (2) for directly heating the heating water using the combustion heat of the burner (1) or for heating the water required for heating the hot water; A second heat exchanger for hot water heating, which is provided with a heat-dissipating heating coil 33 and a heat-exchanging heating coil 31, for heating hot water using the temperature of water supplied from the main heat exchanger 2, 3); A water flow switch (12) installed in the direct water inflow pipe (32) of the secondary heat exchanger (3) and detecting an electric signal when hot water is used; Three sides (4) for supplying the water discharged from the main heat exchanger (2) to either the heating pipe or the heat-dissipating heating coil (33) of the secondary heat exchanger (3); The hot water flowing out through the heating pipe or the heat-dissipating heating coil 33 of the secondary heat exchanger 3 is forcibly pumped by the main heat exchanger 2 in response to the change direction of the three sides 4, A circulation pump 5 for returning to the heat exchanger 2 side; A heat exchanger outflow temperature detection sensor 6 provided in the hot water outlet pipe 34 of the secondary heat exchanger 3 for detecting the temperature of the hot water discharged from the secondary heat exchanger 3; A key input unit 13 for inputting various key signals including hot water and a heating set temperature; And a control unit 7 for performing overall control functions of the boiler including the driving control of the burner 1, the three sides 4, the circulation pump 5, In a two-channel boiler,

A bypass pipe 8 provided with an electric flow rate control valve 10 is provided between the direct water inflow pipe 32 of the secondary heat exchanger 3 and the hot water supply pipe 34 and the hot water hot water pipe 34 A hot water hot water temperature sensor 11 for detecting the temperature of the hot water supplied to the actual user in real time and transmitting the detected temperature to the control unit 7 is provided below the portion where the bypass pipe 8 is connected to the control unit 7 The hot water temperature TH2 detected by the hot water hot water temperature detecting sensor 11 is higher than the hot water temperature Tset of the user by comparing the hot water set temperature Tset of the user with the actual hot water temperature The amount of opening and closing of the electric flow control valve 10 is automatically controlled in response to the vehicle.

Meanwhile, FIG. 4 shows a flowchart for explaining an embodiment of the method of the present invention, and FIG. 5 shows a flowchart for explaining another embodiment of the method of the present invention.

According to this embodiment of the method of the present invention,

A step S2 of determining whether the water flow switch 12 is turned on due to the user's use of hot water if the burner 1 of the boiler is turned on as a result of the determination in step S1 by the control unit 7;

When the water flow switch 12 is in the ON state, the hot water set temperature Tset of the user inputted through the key input unit 13 and the heat exchanger installed in the hot water supply pipe 34 of the secondary heat exchanger 3 The hot water temperature TH1 of the secondary heat exchanger 3 detected through the hot water temperature detecting sensor 6 is read in S3-1 to determine whether the hot water temperature TH1 is higher than or equal to the user hot water set temperature Tset (S4-1);

A step (S5-1) of calculating a difference between positive temperatures if the hot water temperature TH1 of the secondary heat exchanger 3 is higher than or equal to the user hot water set temperature Tset;

The electric flow rate control valve 10 on the bypass pipe 8 provided between the direct water inflow pipe 32 of the secondary heat exchanger 3 and the hot water supply pipe 34 is calculated in the step S5-1 (S6) returning to the step S2 of detecting the state of the water flow switch 12 after the direct water is diluted in the hot water supplied to the user by adjusting the opening / closing amount determined according to the temperature difference .

As a result of comparing the hot water set temperature Tset of the user and the hot water temperature TH1 of the secondary heat exchanger 3 in the step S4-1,

If the hot water temperature TH1 of the secondary heat exchanger 3 is lower than the set temperature Tset of the hot water of the user, the by-pass between the hot water inlet pipe 32 of the secondary heat exchanger 3 and the hot water hot water pipe 34 (S7) of closing the electric flow control valve 10 provided in the pipe 8 and returning to the step S2 of detecting the state of the water flow switch 12 is further performed.

Further, another embodiment of the method of the present invention,

A step S2 of determining whether the water flow switch 12 is turned on due to the user's use of hot water if the burner 1 of the boiler is turned on as a result of the determination in step S1 by the control unit 7;

When the water flow switch 12 is in the ON state, the hot water set temperature Tset of the user inputted through the key input unit 13 and the hot water hot water temperature Tset provided at the end of the hot water hot water pipe 34 of the secondary heat exchanger 3 The actual hot water temperature TH2 of the hot water directly supplied to the user after the direct water dilution detected through the temperature detection sensor 11 is compared with the actual hot water temperature TH2 of the hot water detected by the temperature detection sensor 11, (S4-2) judging whether or not they are the same;

A step (S5-2) of calculating a difference between positive temperatures if the actual hot water temperature TH2 of the hot water directly supplied to the user is higher than or equal to the user hot water set temperature Tset;

The electric flow rate control valve 10 on the bypass pipe 8 provided between the direct water inlet pipe 32 of the secondary heat exchanger 3 and the hot water outlet pipe 34 corresponding to the temperature difference is connected to the temperature difference (Step S6) of returning to the step S2 of detecting the state of the water flow switch 12 after the water is diluted with the hot water supplied to the user so that the temperature is lowered .

As a result of comparing the hot water set temperature Tset of the user and the actual hot water temperature TH2 directly provided to the user in the step S4-2,

When the actual hot water temperature TH2 of the hot water directly supplied to the user is lower than the hot water set temperature Tset of the user, the temperature of the hot water in the hot water outlet pipe 32 of the secondary heat exchanger 3, (S7) of closing the electric flow control valve 10 provided in the path tube 8 completely and returning to the step S2 of detecting the state of the water flow switch 12 is further performed.

Hereinafter, the operation and effect of the present invention will be described.

As shown in FIG. 1, in the known one-pipe two-channel boiler, an embodiment of the apparatus of the present invention has a structure in which an electric flow rate (flow rate) is generated between a direct water inflow pipe 32 of a second heat exchanger 3 and a hot water hot water pipe 34 A bypass pipe 8 provided with a regulating valve 10 is installed to allow the hot water to be partially and automatically diluted with hot water discharged through the secondary heat exchanger 3, The primary technical component is to prevent safety accidents such as burns that may occur due to hot water hot water irrespective of the intention of the initial user.

At this time, the known one-pipe two-channel boiler has at least a burner 1, a main heat exchanger 2, a secondary heat exchanger 3, a water flow switch 12, three sides 4, a circulation pump 5, A tap water temperature detection sensor 6, a key input unit 13, a control unit 7, and the like.

The main heat exchanger 2 of the above components performs the function of directly heating the heating water by using the combustion heat of the burner 1 or heating the water required for heating the hot water.

The secondary heat exchanger 3 is provided with a heat-dissipating heating coil 33 and a heat-exchange heating coil 31 for heating the hot water and heating the direct water using the temperature of the water supplied from the main heat exchanger 2 And provides the user with hot water.

The water flow switch 12 is installed on the direct water inflow pipe 32 of the second heat exchanger 3 so that the user opens the faucet and uses the hot water to perform the second heat exchange through the water inflow pipe 32 When direct water is supplied into the heat-exchanging heating coil 31 of the heat exchanger 3, it is detected by an electric signal and transmitted to the controller 7.

The three sides 4 serve to supply water discharged from the main heat exchanger 2 to either the heating pipe or the heat-dissipating heating coil 33 of the secondary heat exchanger 3.

The circulation pump 5 is discharged from the main heat exchanger 2 in response to the transfer direction of the three sides 4 under the control of the control unit 7 and is discharged from the heat pipe or the heat of the secondary heat exchanger 3 The hot water flowing through the diverging heating coil 33 is forcibly pumped and returned to the main heat exchanger 2 side.

The heat exchanger tap water temperature detection sensor 6 is provided in the hot water outlet pipe 34 of the secondary heat exchanger 3 to detect the temperature of the hot water discharged from the secondary heat exchanger 3 in real time, 7).

The key input unit 13 is connected to the control unit 7 in a wired or wireless manner, and functions to allow a user to input various key signals including hot water and a heating set temperature.

The control unit 7 receives various kinds of information input from the heat exchanger tap water temperature detection sensor 6 or the like and performs a control program input in itself to control the burner 1 and the three sides 4, And the overall control function of the boiler including the drive control of the circulation pump 5 and the like.

In the known one-pipe two-channel boiler having the above-described configuration according to the embodiment of the present invention, the flow rate adjustment between the direct-flow inlet pipe 32 of the secondary heat exchanger 3 and the hot- When the user uses hot water (that is, when the water flow switch 12 is turned "on " in a state where combustion is progressing in the burner of the boiler), the bypass pipe 8 provided with the valve 10 is provided, The control unit 7 compares the hot water temperature TH1 of the secondary heat exchanger 3 detected in real time with the heat exchanger hot water tapping temperature detecting sensor 6 and the hot water set temperature Tset of the user, TH1) is higher than or equal to the user's hot water set temperature (Tset), the difference is obtained, and the opening / closing amount of the electric flow rate control valve (10) provided on the bypass pipe (8) A part of the direct water flows into the hot water supplied to the engine (corresponding to the temperature difference It will have to give to the inlet) as the quantity.

2, in the known one-pipe two-channel boiler, the direct water inflow pipe 32 of the secondary heat exchanger 3 and the hot water inflow pipe 32 of the second heat exchanger 3, A bypass pipe 8 provided with an electric flow rate control valve 10 is installed between the hot water pipe 34 and the hot water pipe 34. The hot water pipe 34 is connected to the lower portion of the bypass pipe 8, Water hot water temperature sensor 11 for detecting hot water tap water temperature TH2 in real time and transmitting it to the control unit 7 so that the controller 7 controls the hot water hot water temperature sensor 11 If the actual hot water hot water temperature TH2 is higher than or equal to the user's hot water set temperature Tset by comparing the user's hot water set temperature Tset with the actual hot water hot water temperature TH2 detected by the user, The opening / closing amount of the electric flow control valve 10 is automatically It will have to be adjust.

At this time, either of the two methods of controlling the amount of opening and closing of the electric flow rate control valve 10 provided in the bypass pipe 8 in the control unit 7 (that is, two embodiments of the present invention) A direct water flow finally flowing through the bypass pipe 8 and the electric flow rate control valve 10 automatically controlled by the control unit 7 is mixed and diluted with the hot water, The hot water hot water temperature TH2 is calculated by comparing the actual temperature of the hot water detected in real time through the hot water temperature sensor 11 (i.e., the temperature TH2 of the hot water directly supplied to the user) In view of the fact that the difference is equal to or higher than the hot water set temperature Tset of the electric water flow control valve 10 and that the amount of opening and closing of the electric flow control valve 10 is automatically adjusted in correspondence with the obtained difference, ) Is an embodiment 1). ≪ / RTI >

As described above, in the present invention, the difference between the hot water temperature of the heat exchanger (TH1) or the actual hot water temperature (TH2) of the hot water and the user set temperature (Tset) The amount of opening and closing of the electric flow rate control valve 10 provided on the bypass pipe 8 in the control unit 7 can be automatically adjusted by an amount corresponding to the amount of water supplied from the control unit 7, It is possible to completely prevent safety accidents such as burns which may occur due to the discharge of hot water at a high temperature, thereby securing the safety due to the use of hot water, and at the same time, .

Therefore, it is possible to improve not only the commerciality of the one-pipe two-channel boiler but also the reliability according to the hot water temperature control.

4, when the control unit 7 determines the state of the burner 1 of the boiler (S1) as a result of the determination in step S1, (S2) whether the water flow switch 12 is "on ".

When the water flow switch 12 is turned on because the user uses the hot water while continuously detecting the state of the water flow switch 12 as described above, Of the secondary heat exchanger (3) detected in real time through the hot water set temperature (Tset) of the heat exchanger (3) and the heat exchanger hot water temperature detection sensor (6) provided at the beginning of the hot water hot water pipe The temperature TH1 is read (S3-1), and then the temperatures are compared with each other to determine whether the hot water temperature TH1 is higher than or equal to the user hot water set temperature Tset (S4-1).

As a result, if the hot water temperature TH1 of the secondary heat exchanger 3 is equal to or higher than the user hot water set temperature Tset, the difference between the two temperatures is calculated (S5-1) A driving signal determined in accordance with the temperature difference is input to the bypass pipe 8 provided between the direct water inlet pipe 32 of the secondary heat exchanger 3 and the hot water outlet pipe 34 using the input table value, (S6) to the regulating valve (10).

The electric flow rate control valve 10 on the bypass pipe 8 provided between the direct water inlet pipe 32 of the secondary heat exchanger 3 and the hot water outlet pipe 34 is connected to the step S5-1, The amount of hot water supplied to the user after being heated through the secondary heat exchanger 3 is supplied to the bypass pipe 8 and the electric flow rate control valve 10 through the opening / Part of the running water supplied is automatically diluted after it is introduced.

Accordingly, since the temperature of the hot water provided to the user is automatically decreased corresponding to the temperature of the direct water diluted corresponding to the opening and closing amount of the electric flow rate control valve 10, It is possible to completely prevent safety accidents such as burns that may occur due to the discharge of hot water at a high temperature, thereby securing safety according to the use of hot water and eliminating the user's discomfort.

As a result of comparison between the hot water set temperature Tset of the user and the hot water temperature TH1 of the secondary heat exchanger 3 in the control unit 7, the hot water temperature TH1 of the secondary heat exchanger 3, The electric flow rate regulating valve 10 provided in the bypass pipe 8 between the direct water inlet pipe 32 of the secondary heat exchanger 3 and the hot water outlet pipe 34 when the temperature is lower than the user's preset hot water temperature Tset, The temperature of the hot water directly supplied to the user can be prevented from dropping below the set temperature of the user due to the direct water supplied through the bypass pipe 8 and the electric flow rate control valve 10 have.

5, the second embodiment differs from the first embodiment in that the hot water tapping temperature, which is compared with the hot water set temperature Tset of the user, is supplied to the secondary heat exchanger 3, The actual hot water temperature TH2 directly provided to the user after the direct water dilution detected through the hot water hot water temperature detecting sensor 11 installed at the end of the hot water hot water pipe 34 of the hot water extracting pipe 34 is the same, .

That is, when the water flow switch 12 is turned on (Yes in S2) because the user uses the hot water in the state where the burner 1 of the boiler is turned on (Yes in S1) The hot water set temperature Tset of the user inputted through the key input unit 13 and the hot water set at the end of the hot water hot water pipe 34 of the secondary heat exchanger 3, After the direct water dilution detected in real time through the hot water temperature detecting sensor 11, the actual hot water actual temperature TH2 of the hot water directly supplied to the user is read (S3-2), and then the hot water actual hot water temperature TH2 ) Is higher than or equal to the user hot water set temperature Tset (S4-2).

As a result, if the actual hot water temperature TH2 of the hot water directly supplied to the user is equal to or higher than the user hot water set temperature Tset, the difference between the both temperatures is calculated S5-2, A drive signal determined in correspondence with the temperature difference is inputted to the bypass pipe 8 provided between the direct water inflow pipe 32 of the secondary heat exchanger 3 and the hot water supply pipe 34 (S6) to the flow rate control valve 10.

The electric flow rate control valve 10 on the bypass pipe 8 provided between the direct water inlet pipe 32 of the secondary heat exchanger 3 and the hot water outlet pipe 34 is connected to the step S5-2, (The difference between the actual hot water temperature TH2 of the hot water directly supplied to the user and the user hot water set temperature Tset) calculated by the second heat exchanger 3 And then a portion of the direct water supplied through the bypass pipe 8 and the electric flow rate control valve 10 is introduced into the hot water provided to the user and then automatically diluted.

Accordingly, since the temperature of the hot water provided to the user is automatically decreased corresponding to the temperature of the direct water diluted corresponding to the opening and closing amount of the electric flow rate control valve 10, It is possible to completely prevent safety accidents such as burns that may occur due to the discharge of hot water at a high temperature, thereby securing safety according to the use of hot water and eliminating the user's discomfort.

As a result of comparing the hot water set temperature Tset of the user and the actual hot water temperature TH2 directly provided to the user in the step S4-2, (T2) provided in the bypass pipe (8) between the direct water inlet pipe (32) of the secondary heat exchanger (3) and the hot water outlet pipe (34) The temperature of the hot water directly supplied to the user is lowered below the set temperature of the user due to the direct water supplied through the bypass pipe 8 and the electric flow rate control valve 10 .

At this time, the control unit 7 compares the hot water temperature TH1 of the heat exchanger discharged from the secondary heat exchanger 3 or the hot water temperature TH2 of the hot water directly supplied to the user with the user's set temperature Tset If the hot water tap temperature TH2 is higher than or equal to the user's set temperature Tset, the difference is obtained, and then the opening / closing amount of the electric flow rate regulating valve 10 provided in the bypass pipe 8 corresponding to the temperature difference is automatically The amount of opening and closing of the electric flow control valve 10 is 10 [mu] m, which is 10 [mu] To 30% (that is, control such that the direct water to be supplied to the user is mixed within 10 to 30%) is most preferable.

FIG. 3 is a block diagram showing an electronic block diagram of a one-channel two-channel boiler provided with the apparatus of the present invention. FIG. 6 is a diagram showing an electronic block diagram of a single- The temperature of the hot water is compared with the temperature of the hot water.

As can be seen from the graph, an overshoot phenomenon occurs in which the hot water temperature of the hot water in the early stage of using hot water continuously changes around the user set temperature value. However, when the present invention is applied, The hot water is diluted with the hot water through the pass pipe, so that the overshoot phenomenon does not occur and the hot water having a relatively constant temperature (that is, a temperature close to the set temperature) is provided to the user.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: burner
2: main heat exchanger
3: Secondary heat exchanger
31: heat exchange heating coil 32: direct water inlet pipe
33: heat-radiating heating coil 34: hot-water hot-
4: Three sides
5: Circulation pump
6: Heat exchanger tapping temperature detection sensor
7:
8: Bypass tube
10: Electric flow control valve
11: Hot water tapping temperature detection sensor
12: Water flow switch
13:

Claims (6)

A main heat exchanger for directly heating the heating water or heating the water required for heating the hot water by using the combustion heat of the burner; A secondary heat exchanger provided with a heat-dissipating heating coil and a heat-exchanging heating coil and heating the direct water using the temperature of water supplied from the main heat exchanger to provide hot water to a user; A water flow switch installed in the direct water inflow pipe of the secondary heat exchanger to detect an electric signal when the hot water is used; A three-way valve for supplying water discharged from the main heat exchanger to one of a heating pipe and a heat-dissipating heating coil of a secondary heat exchanger; A circulation pump for forcibly pumping hot water flowing through a heat-radiating heating coil of a heating pipe or a secondary heat exchanger discharged from the main heat exchanger in response to the three-side switching direction, and returning the hot water to the main heat exchanger side; A heat exchanger hot water temperature detection sensor installed in the hot water outlet of the secondary heat exchanger for detecting the temperature of the hot water discharged from the secondary heat exchanger; A key input unit for inputting various key signals including hot water and a heating set temperature; A two-channel boiler having a control unit for executing a control program inputted in the control unit and performing a general control function of the boiler including driving control of the burner, three sides and a circulation pump,
A bypass pipe having an electric flow rate control valve is provided between the direct water inlet pipe and the hot water outlet pipe of the secondary heat exchanger and the control unit controls the flow rate of the hot water of the secondary heat exchanger detected through the heat exchanger hot water tap temperature detecting sensor The controller controls the amount of opening and closing of the electric flow rate control valve, which compares the temperature of the hot water of the user with respect to the temperature to obtain the difference, and then flows the hot water into the hot water supplied to the user corresponding to the temperature difference. An early hot tapping prevention device using hot water in a water boiler.
A main heat exchanger for directly heating the heating water or heating the water required for heating the hot water by using the combustion heat of the burner; A secondary heat exchanger provided with a heat-dissipating heating coil and a heat-exchanging heating coil and heating the direct water using the temperature of water supplied from the main heat exchanger to provide hot water to a user; A water flow switch installed in the direct water inflow pipe of the secondary heat exchanger to detect an electric signal when the hot water is used; A three-way valve for supplying water discharged from the main heat exchanger to one of a heating pipe and a heat-dissipating heating coil of a secondary heat exchanger; A circulation pump for forcibly pumping hot water flowing through a heat-radiating heating coil of a heating pipe or a secondary heat exchanger discharged from the main heat exchanger in response to the three-side switching direction, and returning the hot water to the main heat exchanger side; A heat exchanger hot water temperature detection sensor installed in the hot water outlet of the secondary heat exchanger for detecting the temperature of the hot water discharged from the secondary heat exchanger; A key input unit for inputting various key signals including hot water and a heating set temperature; A two-channel boiler having a control unit for executing a control program inputted in the control unit and performing a general control function of the boiler including driving control of the burner, three sides and a circulation pump,
A bypass pipe provided with an electric flow rate control valve is provided between the direct water inlet pipe of the secondary heat exchanger and the hot water outlet pipe and the hot water supplied to the actual user at a lower portion of the hot water outlet pipe, Water hot water temperature detecting sensor for detecting the temperature in real time and transmitting the detected temperature to the control unit and comparing the hot water set temperature of the user with the actual hot water temperature detected through the hot water hot water temperature detecting sensor, And the amount of opening and closing of the electric flow control valve is automatically controlled.
Determining whether the water flow switch is turned " on "due to the user's use of hot water if the burner of the boiler is determined to be" on "
When the water flow switch is turned on, the hot water set temperature of the user inputted through the key input unit and the hot water temperature of the secondary heat exchanger detected through the heat exchanger hot water tap temperature detecting sensor installed at the beginning of the hot water hot water tank of the secondary heat exchanger To determine whether the hot water temperature is higher than or equal to the set temperature;
Calculating a difference between positive temperatures if the hot water temperature of the secondary heat exchanger is higher than or equal to the user hot water set temperature;
The electric flow rate control valve on the bypass pipe provided between the direct water inlet pipe and the hot water outlet pipe of the secondary heat exchanger is adjusted to the opening and closing amount determined according to the temperature difference calculated in the above step, Wherein the hot water boiling water is heated to a temperature higher than the boiling point of the hot water.
The method of claim 3,
As a result of comparing the hot water set temperature of the user with the hot water temperature of the secondary heat exchanger,
And closing the electric flow rate control valve provided in the bypass pipe between the direct water inlet pipe of the secondary heat exchanger and the hot water outlet pipe when the hot water temperature of the secondary heat exchanger is lower than the user's set hot water temperature A method for preventing high temperature hot water from using hot water in a one - pipe two - channel boiler.
Determining whether the water flow switch is turned " on "due to the user's use of hot water if the burner of the boiler is determined to be" on "
When the water flow switch is in the ON state, the hot water set temperature detected by the hot water set temperature sensor installed at the end of the hot water outlet pipe of the secondary heat exchanger and the user's hot water set temperature inputted through the key input unit are directly supplied to the user Comparing the actual hot water temperature of the hot water with each other to determine whether the actual hot water temperature of the hot water is higher than or equal to the set temperature;
Calculating a difference between both temperatures if the actual hot water temperature of the hot water directly supplied to the user is higher than or equal to the user hot water set temperature;
The electric flow rate control valve on the bypass pipe provided between the direct water inlet pipe and the hot water outlet pipe of the secondary heat exchanger is adjusted to the amount of opening and closing determined according to the temperature difference calculated in the above step, Wherein the hot water boiling water is heated to a predetermined temperature and diluted.
The method of claim 5,
As a result of comparing the hot water set temperature of the user with the actual hot water temperature of the hot water directly supplied to the user,
When the actual hot water temperature of the hot water directly supplied to the user is lower than the hot water set temperature of the user, the electric flow rate adjusting valve provided in the bypass pipe between the direct water inlet pipe of the secondary heat exchanger and the hot water outlet pipe is completely closed How to Prevent Hot Hot Water from Using Hot Water in a Boiler 2.

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