KR20020073763A - apparatus for repeatedly heating warm-water in gas boiler - Google Patents

Abstract

PURPOSE: An apparatus for reheating warm water of a gas boiler is provided to prevent cold water from discharging for some length of time when a use of warm water stops for some length of time and the warm water is again used in order to use warm water in the gas boiler. CONSTITUTION: A warm water storage tank(30) includes a cover(31), a heat insulating material(32), and a storage vessel(33). A temperature adjustor(10) sets a temperature of water in the warm water storage tank(30). A circulating pump(11) is located at a lower portion of the warm water storage tank(30). A water back check valve(12) is installed at a discharge port of the circulating pump(11). A controller(40) confirms whether a warm water switch is turned on and whether a temperature is less than a lowest set temperature of the temperature adjustor(10) and operates the circulating pump(11) according to the confirmation results. A warm water inflow pipe flows water from a heat exchanger into the warm water storage tank(30). The water included in the warm water storage tank(30) is discharged to a discharge pipe.

Description

Apparatus for repeatedly heating warm-water in gas boiler}

The present invention relates to a hot water reheating device of a gas boiler to stop the use of hot water for a while when the hot water is used in the gas boiler and to prevent the phenomenon of cold water for the first time when the hot water is used again, thereby enabling continuous hot water use.

In a typical gas boiler, a hot water heating type gas boiler using a heat exchanger as shown in FIG. 1 is mainly used to continuously discharge hot water when hot water is reused after an instant stop of using hot water, and configured to operate as follows. It is done. The operation principle of the conventional heat exchanger-type gas boiler water heater is described in detail with reference to FIG.

Once the user uses hot water with the hot water switch (not shown) turned on, the water in the hot water pipe (8 ') is discharged out by the pressure of the water pipe and the cold water inflow pipe newly introduced into the cold water inlet pipe (5). The gas burner 4 which interlocks is ignited while passing through the flow rate sensor 7 mounted at the side (5). At this time, the ignition stroke of the gas burner first operates the exhaust fan to discharge the waste gas inside the boiler and then ignites the operation, which is called pre-purge and takes about 20 seconds. During this time, even when the hot water switch (not shown) is turned on, the gas burner 4 is not in an operating state, so the water discharged out of the gas can be cold water without heating, and the amount is about 5 to 6 l.

The cold water passing through the flow rate detector 7 is exchanged with the heating water heated by the gas burner 4 while passing through the serpentine pipe in the heat exchanger and discharged through the hot water pipe 8 '.

When a hot water user starts to use hot water or reuses after stopping for a while during hot water use, this pre-purge stroke is made during which cold water is discharged and the hot water user has to wait for hot water to come out.

Among the conventional gas boilers, a device for compensating for such disadvantages is a device for maintaining the gas burner 4 in an ignited state for several seconds when it is stopped during hot water use. In the heating water tank (not shown) to which the water supply pipe 3 is connected, the heating water is circulated to the heat exchanger 2 and the heating water tank through the heating water circulation pump (not shown). In this way, when the stop time is short, the ignition state of the gas burner 4 can be maintained continuously so that continuous supply of hot water is possible, and when a slight time difference occurs, heat exchange is performed by the heated water heated during the above ignition holding time. By doing so, it was to reduce the temperature deviation of the water discharged through the hot water pipe (8 ') as much as possible.

However, even if the above method is used, if the hot water stop time is longer, the effect is not at all or the temperature range is increased, which is not effective, and the heating water, which is indirect water, is heated in a large amount for continuous hot water use. In terms of thermal efficiency, it was not very efficient.

The present invention has been proposed to solve the above problems, consisting of a circulation pump, a temperature controller, a hot water tank to operate separately but can be easily connected to a conventional gas boiler device, of course, a household having a narrow boiler installation space It can also be installed in the gas boiler facility.When the water in the hot water tank is discharged to the circulation pump when it is below a certain temperature, it is circulated into the gas boiler so that the water in the hot water tank is kept at a constant temperature. It is intended to provide a device that allows the hot water user to continuously use hot water or hot water with less temperature variation at any time during hot water use by operating to discharge water in the hot water tank at a constant temperature.

1 is a structural diagram of a water heater in a conventional gas boiler,

2 is a structural diagram of a water heater in the gas boiler equipped with the present invention;

3 is a structural diagram of a hot water storage tank (hereinafter, referred to as a hot water tank) of the present invention;

Figure 4 is a temperature sensor and three-way valve installation in the hot water inlet pipe of an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

1: heating return tube 2: heat exchanger

3: heating water supply pipe 4: gas burner

5: cold water inlet pipe 6: direct valve

7: cold water inlet flow rate sensor 8: hot water inlet pipe

8 ': hot water pipe (conventional) 9: hot water discharge pipe

10: temperature controller 11: circulation pump

12: check valve 13: circulating pump discharge pipe

14: YT type connector 30: hot water tank

31: cover 32: insulation

33: storage container 34: hole (hole)

35: temperature sensor 36: three-way valve

40: control unit 50: flow rate detector of the hot water discharge pipe

In order to achieve the above object, the present invention is installed in a hot water tank composed of a cover, a heat insulating material and a storage container, a temperature controller capable of setting a temperature of water in the hot water tank, a circulation pump located under the hot water tank, and an outlet of the circulation pump. It consists of a check valve for preventing the backflow and a control unit for operating the circulation pump by checking whether the hot water switch is turned on and below the minimum set temperature of the temperature controller, and the hot water inlet pipe from the heat exchanger and the hot water discharge pipe discharging the hot water are It is inserted into the upper part of the storage tank, and the circulating pump discharge pipe and the cold water inlet pipe are connected to the Wait type connector so that the water discharged by the circulation pump can pass through the flow rate sensor on the cold water inlet pipe side, and the temperature of the water in the hot water tank Is below the lowest set temperature, the water in the hot water tank is After circulating through the flow rate sensor on the inflow side, it is circulated in the order of heat exchanger and then flowed back into the hot water tank. By repeatedly circulating until the water temperature is above a certain temperature, the water temperature in the hot water tank is kept above a certain temperature. It is a hot water reheating device that allows hot water to be continuously released even after stopping.

In addition, the flow rate detector is mounted on the hot water discharge pipe of the hot water reheater to add a control device to stop the circulation pump when the hot water is in use, thereby making it safer from the risk of backflow, and a heat exchanger inserted into the hot water tank. A temperature sensor and a three-way valve can be installed in the hot water inlet pipe from the hot water inlet to separate hot and cold water into the hot water tank by the three-way valve acting as the temperature sensor, thereby enabling more efficient use.

Hereinafter, the configuration and operation principle of the present invention in detail with reference to the accompanying drawings as follows.

1 shows a structural diagram of a water heater in a conventional gas boiler, FIG. 2 shows a structural diagram of a gas boiler in which the hot water reheating apparatus of the present invention is installed in the conventional gas boiler of FIG. 1, and FIG. 3 shows the present invention. Figure 4 is a view showing the structure of the hot water storage tank of the hot water reheating apparatus, Figure 4 shows that the temperature sensor and three-way valve is installed in the hot water inlet pipe as an application embodiment of the present invention.

The hot water storage tank of the present invention as shown in FIG. 3 is used in connection with the hot water pipe of a conventional gas boiler as shown in FIG.

The hot water reheating apparatus of the present invention comprises a hot water tank 30 and a circulation pump 11 including a temperature controller 10, a cover 31, a heat insulating material 32, and a storage container 33, and a general gas. Before the passage of the flow rate detector (7) on the cold water inlet pipe side of the boiler, the circulating water discharge pipe (13) coming out of the circulation pump (12) is connected to the Waity-type connector (14) and cuts the conventional hot water inlet pipe (8). Each end is inserted into the upper portion of the hot water tank by the hot water inlet pipe 8 and the hot water discharge pipe 9 of FIG. 2 and the hot water storage tank and the hot water pipes are all sealed with water.

In the above configuration, the wight-type connector 14 is a modification of a conventional tee (T) -shaped connector to a wye-shaped in order to improve the performance of the present invention. And there is no problem in using a tee connector.

The operation of the present invention is as follows.

First, when the hot water user turns on the hot water switch (not shown), even if the use of hot water is delayed, the hot water reheating device of the present invention, which is a separate device from the gas boiler, starts to operate. At this time, the control unit 40 checks the temperature of the water in the hot water tank and if the temperature is lower than the minimum set by the temperature controller 10 operates the circulation pump 11 to discharge the stored water in the hot water tank (30). The discharged water flows to the flow rate detector because the cold water inlet pipe is introduced into the wight-type connector 14 and the cold water inlet pipe 5 is sealed, and the gas burner is operated by the flow rate detector as in the principle that a normal gas boiler operates. Will work. After the flow rate detector, the circulating water is re-introduced into the hot water tank 30 through the heat exchanger 2, and is continuously circulated by the circulation pump if it is also below the lowest set temperature.

When the user of hot water starts to use hot water, the stored water will be discharged through the hot water discharge pipe 9 even though the temperature of the water stored in the hot water tank 30 is lower than the set minimum temperature, but the gas burner 4 starts ignition. It is in a state of ignition or already ignited, which reduces the time for hot water to be released significantly.

Even when the water stored in the hot water discharge pipe 9 is being discharged, if the water in the hot water tank 30 is lower than or equal to the set minimum temperature, the water in the hot water tank 30 is continuously discharged through the circulation pump 11 so that the water is mixed with the incoming cold water. The heat exchanger (2) is to be re-introduced into the hot water tank (30). Therefore, the same effect as that of preheating the cold water can be additionally obtained.

The set temperature of the hot water tank 30 can be appropriately adjusted by the temperature controller 10 installed outside the hot water tank 30 and up to the maximum set temperature of the temperature deviation of the temperature higher than the temperature set by the temperature controller 10. The control unit 40 operates the circulation pump so that the gas burner 4 is not continuously ignited.

Even if the hot water user stops the hot water temporarily while using the hot water, the control unit 40 of the present invention which operates separately from the gas boiler body detects only the temperature of the water in the hot water tank 30 to operate when the temperature is lower than the set minimum temperature. (11) is operated to circulate the water in the hot water tank 30, and when the temperature is higher than the set maximum temperature, the operation of the circulation pump 11 is stopped to end the circulation stroke to repeat the operation of the temperature of the water in the hot water tank 30 to be constant. Since the hot water in the hot water tank 30 can be continuously discharged, and when the flow of cold water starts during the use of hot water, the circulation pump 11 operates while the cold water flows back to the hot water tank 30. In order to prevent the inflow of the back flow check valve 12 in front of the circulation pump 11 to prevent the back flow.

However, for the sake of safety, the operation of the circulation pump 11 may be stopped. For this purpose, an additional flow rate detector 50 is installed in the hot water discharge pipe 9 of FIG. After checking whether the hot water is being discharged by the 50 and adding the control circuit to the controller 40 to stop the operation of the circulation pump 11 when the hot water is being discharged, the temperature in the hot water tank 30 is less than the set minimum temperature, The circulation pump 11 may be operated only when the hot water discharge pipe 9 is not discharging hot water, thereby enabling safer operation.

During the operation, the cold water introduced during the prepurge of the gas burner 4 is sprayed from the upper portion of the hot water storage tank 30 to the holes 34 lined with the hot water inlet pipe 8 in the hot water tank 30. Evenly mixed with the stored hot water to sink down to form an efficient heat exchange and the hot water discharge pipe (9) is located in the upper portion of the hot water tank (30) to discharge the hot water located in the upper portion by the specific gravity, so that when the hot water is used Hot water discharge is possible.

However, in order to further ensure the temperature distribution of the water in the hot water tank, a temperature sensor 35 and a three-way valve 36 operated by the temperature sensor are installed at the end of the hot water inlet pipe 8 as shown in FIG. When the three-way valve 36 is above a predetermined temperature by the temperature sensor, the water is introduced into the upper portion of the hot water tank 30, and when the temperature is lower than that, the water is introduced into the lower portion of the hot water tank 30. Hot water may be discharged immediately and cold water at the bottom may be recycled by the circulation pump 11. In this structure, as shown in FIG. 4, the tube inserted into the lower portion may have a wider end portion, thereby preventing cold water introduced into the lower portion from forming a vortex and easily mixing with the hot water of the upper portion.

The present invention having the above-described configuration and operation can be easily connected to a normal gas boiler, and the capacity of the hot water tank 30 can be made small. That is, if the temperature of the water in the hot water tank 30 of the present invention is below the set minimum temperature by using the gas burner 4 by operating the gas burner 4 by the flow rate sensor 7 of the cold water inflow pipe side, the hot water tank 30 Circulating pump (11) connected to) operates at any time to flow the water in the hot water storage tank to the cold water inlet flow velocity sensor (7) of the gas boiler to operate the gas burner (4). 15 liters of hot water tank 30, which has a capacity to store water for at least one minute, enables continuous hot water use.

The present invention is a device that operates separately from the gas boiler, it is easy to be additionally installed in the conventional gas boiler, continuous hot water only with a hot water tank 30 of a capacity capable of storing 15 liters of water to be used for at least one minute. It can be used to install in domestic boilers that have a narrow boiler installation space, and even if the user stops using hot water for a while and then uses hot water again, continuous hot water can be used. Reuse of the conventional inconvenience by eliminating the problem of cold water coming out after reuse.

Claims (3)

A hot water storage tank 30 composed of a cover 31, a heat insulating material 32, and a storage container 33; A temperature controller 10 capable of setting a temperature of water in the hot water storage tank 30; A circulation pump 11 located below the hot water storage tank; A check valve 12 for preventing backflow installed at the outlet of the circulation pump; A controller 40 which checks whether the hot water switch is turned on and is below the lowest set temperature of the temperature controller and operates the circulation pump 11; A hot water inlet pipe for introducing water passed through the heat exchanger into the hot water storage tank; A discharge pipe through which water in the hot water storage tank is discharged; The circulating pump discharge pipe 13 is connected to the cold water inlet pipe 5 by a Wait-type connector 14 so that water discharged by the circulation pump 11 can pass through the flow rate sensor 7 on the cold water inlet pipe side. Hot water reheating device. The controller 40 of claim 1, further comprising a control unit 40 mounted on the hot water discharge pipe 9 to stop the circulation pump 11 when the flow rate is detected because the flow rate sensor 50 is in use. Hot water reheating device, characterized in that. The hot water heating apparatus according to claim 1, wherein a three-way valve (36) operated by a temperature sensor (35) and the temperature sensor (35) can be added to the hot water inlet pipe (8).