KR200431547Y1 - Piping ? control system of the combined boiler ? Solar heater for hot water ? house warming - Google Patents

Abstract

The present invention relates to a solar heat utilization facility. In particular, when a solar heat utilization facility is installed in connection with a boiler, hot water produced in the solar heat utilization facility is mixed with hot water produced in the boiler through a pipe connected to the boiler and a heating load facility. At the same time, the present invention relates to a boiler-linked piping and control system for the combined use of heating in a solar heating facility that circulates in a heating load facility or circulates in a heating load facility without starting a boiler. The piping and control system connects the piping from the upper part of the hot water tank installed in the upper part of the solar water heater to a point between the outlet of the boiler hot water circulation pump outlet of the heating hot water supply main and the heating load facility, and the solar hot water in the middle of the piping. By installing a circulation pump for circulation, the hot water in the solar hot water tank is heated By being press-fitted at one point of the supply main, it is mixed with the hot water produced in the boiler to flow to the heating load facility, and the solar hot water return pipe is connected to the boiler and the heating load facility. Connected to the lower part of the hot water tank installed in the upper part, the hot water returned from the heating load facility is separated into the solar water heater and the boiler at the pipe connection point and recycled to the boiler and the solar water heater hot water tank, while the circulation pump for solar hot water circulation Independent of the boiler hot water circulation pump, characterized in that consisting of a system to be started separately. Therefore, the piping and control system for the hot water utilization and heating of the solar heat utilization facility according to the present invention having the configuration as described above is mixed with the hot water produced in the solar water heater and the hot water produced in the boiler at the same time circulating in the heating load facility Therefore, in the season when the boiler operation time is reduced or the heating load decreases, the heating hot water circulates only the heating load facility and the solar water heater hot water tank with hot water produced by the solar water heater even after stopping the boiler. In addition, the hot water produced in the solar water heater can be circulated as much as possible to the heating, thereby reducing the use of fuel for the boiler.

Solar heating

Description

Piping & control system of the combined boiler & Solar heater for hot water & house warming}

1 is a boiler connection piping and control system for heating a conventional solar thermal facility

Figure 2 is a diagram showing the overall configuration of the boiler-linked piping and control system for the combined use of heating in solar thermal facilities according to a preferred embodiment of the present invention

※ Explanation of code for main part of drawing

200: solar water heater hot water tank

210: solar hot water extraction pipe

220: cold water supply pipe

230: solar hot water supply pipe

240: solar hot water return pipe

250: solar hot water circulation pump

260: solar hot water temperature sensor

300: boiler

310: heating water return

320: heating water supply

330: boiler hot water circulation pump

340: connection point between solar hot water return pipe and heating water return main

350: connection point between solar hot water supply pipe and heating water supply

400: heating load facility

The present invention relates to a boiler-linked piping and control system for the combined use of solar heating facilities, more specifically, the hot water produced in the solar water heater installed in conjunction with the boiler in the solar heating system is mixed with the hot water produced in the boiler At the same time, it is a piping and control system that is circulated to a heating load facility or independently to a heating load facility without starting a boiler, so that hot water produced in a solar water heater is circulated to the heating load facility as much as possible without installing a separate heat storage tank. It relates to the piping and control system of solar heat utilization facility to reduce boiler operating time by increasing the temperature.In general, the solar heat utilization facility for heating is installed in conjunction with the boiler, and the heat storage tank is installed to indirect heat exchange. In water of heat storage tank It was made for heating by circulating in this heating load facility by storing hot water and a piping and control system to supplement the insufficient amount of heat by heating the hot water of the heat storage tank by indirect heat exchange with the warmed water to the start-up of the boiler when there is insufficient solar power. The solar heating system is a very useful renewable energy facility that reduces fossil fuels and the generation of greenhouse gases generated from combustion by converting fossil fuels such as boiler oil into solar energy, which is an alternative energy source. Referring to the accompanying drawings, the configuration of a boiler connection pipe and a control system for a heating combined use of a conventional solar thermal facility as described above is as follows. That is, as shown in FIG. Install the tank 20, but the water inside the heat exchanger coil installed in the heat storage tank 20 through the hot water supply pipe 13 and the solar hot water circulation pump 15 to the hot water produced in the solar water heater ( After passing through 21), the hot water in the heat storage tank is indirectly heated by circulating to the solar water heater through the solar hot water return pipe 14, and when the heat is insufficient, the boiler 30 is started to start the boiler hot water supply pipe 31. And a heat exchange coil 22 installed inside the heat storage tank 20 through the boiler hot water circulation pump 33 and then recycled to the boiler through the boiler hot water return pipe 32. The hot water in the heat storage tank is warmed by indirect heat exchange, and the hot water in the heat storage tank 20 is circulated to the heating load facility 40 to heat the system. However, the hot water circulation to the heat storage tank 20 of the solar water heater (10) hot water by detecting the temperature difference between the solar water heater (10) and the heat storage tank (20) in the boiler-linked piping and control system for the combined heating of the conventional solar thermal facilities. Unused heat is generated in the system, and the heat loss due to the reduction of useful solar hot water can be calculated as follows. In general, when the temperature difference between the solar water heater (10) and the heat storage tank (20) is activated to start the solar hot water circulation pump (15), in summer, when the amount of sunlight is abundant and the heating load is small, the temperature difference is set to 10 degrees Celsius or less. In order to reduce unnecessary startup time of the solar hot water circulation pump (8) and to set the temperature difference to 5 degrees Celsius or less in the season when the amount of sunshine in winter is low and the heating load is large, in this case, the amount of water retained by the solar water heater (10) and Considering that the amount of heat by the product of the temperature difference set point is not transmitted to the heat storage tank, the temperature of the solar water heater 10 is set to about 60 to 80 degrees Celsius, and the daily heating capacity of one set of water heater is about 300 liters, which is the capacity of the hot water tank. 300 * (5 to 10) = 1,500 to 3,000 Kcal of heat is not available per set of water heaters per day. This leads to an increase in the amount of fuel used for the boiler, up to 4,284 Kcal. Also, heat dissipation losses occur at the surface of the heat storage tank. In addition, the conventional system requires the additional installation of the heat storage tank 20 and the corresponding building space, and the temperature difference control by the temperature sensor 16, 26 is due to the improper setting of the control amount and the aging of the solar hot water due to the aging of the sensor. There is a disadvantage that the frequency of malfunction of the pump 15 is increased and the power ratio for starting the three circulation pumps 15, 25, 33 is increased.

Therefore, the present invention was devised to solve the above-mentioned problems. In a season when the heating load is large without installing a heat storage tank separately, the hot water of the solar water heater is directly mixed with the hot water produced by the boiler and circulated in the heating load facility at the same time. In order to reduce the operating time and in the season when the heating load decreases, the hot water is circulated only by the hot water produced by the solar water heater even after stopping the boiler, thereby reducing the starting time of the boiler to maximize the utilization rate of solar heat and the heat storage tank. By reducing the heat dissipation loss of the boiler, it reduces the use of fuel for the boiler and increases the operation rate by reducing the failure factor by switching the circulating pump starting method by detecting the temperature difference to the temperature sensing method. In addition, it is to reduce the power cost by reducing the number and uptime of the circulation pump.

In order to achieve the object as described above, the boiler-linked piping and control system for the combined heating of the solar heat utilization facility of the present invention does not have a separate heat storage tank installed in the solar heat utilization facility, and the heating hot water from the top of the hot water tank attached to the top of the solar water heater. Connect piping to a point between the outlet side of the boiler hot water circulation pump installed in the supply main and the heating load facility, and add a solar hot water circulation pump to the hot water in the flow direction of the heating hot water supply pipe. The solar hot water circulating pump is connected to the bottom of the solar water heater hot water tank from one point of the heating hot water return pipe connecting the boiler and the heating load facility. It is a system that is not connected to the circulation pump but is started separately. Preferably, the solar hot water circulation pump is required to be started only above the set temperature of the hot water temperature sensor attached to the bottom of the hot water tank attached to the top of the solar water heater. Preferred embodiments of the boiler-linked piping and control system for the combined use of the heating of the facility will be described in detail with reference to the accompanying drawings. FIG. 2 shows the combined use of heating of the solar heat utilization facility according to the preferred embodiment of the present invention. The overall schematic diagram showing the schematic configuration of the boiler connection piping and control system. In constructing a solar thermal facility system as shown in FIG. 2, a heating hot water supply pipe connecting a solar water heater hot water tank 200, a boiler hot water circulation pump 330, and a heating load facility 400 to store solar hot water (320) Solar hot water supply pipe 230 to connect the one point of the 350) and a solar hot water circulation pump 250 to allow hot water to flow in the direction of the heating hot water supply pipe 320 to one point of the pipe, the boiler At one point 340 of the heating hot water return main pipe 310 connecting the heating load facility 400 and the solar hot water return pipe 240 connecting the lower portion of the solar water heater hot tub 200 is installed. In addition, the solar hot water temperature sensor 260 is installed in the lower portion of the solar water heater 200 and connects it to the solar hot water circulation pump 250. Preferably, the start of the solar hot water circulation pump 250 is a solar water heater hot water tank 200 Solar hot water at the bottom of the The temperature sensor 260 is installed so as to be started only at a temperature higher than the temperature set therein. Hereinafter, the operation of the boiler connection piping and control system 100 for the combined use of heating of the solar heat installation facility according to the preferred embodiment of the present invention configured as described above. That is, as shown in FIG. 2, the hot hot water of the solar water heater hot water tank 200 starts the solar hot water circulation pump 250 when the solar hot water temperature sensor 260 installed in the lower portion reaches the set temperature value. And the hot water coming from the boiler 300 at one point 350 of the heating water supply pipe 320 through the solar hot water supply pipe 230 and combined with the hot water passing through the boiler hot water circulation pump 330 to the heating load facility 400. Thereafter, the heated hot water of the lowered temperature from the heating load facility 400 reaches the one point 340 via the heating hot water return main body 310 and part of the sun Through a hot water exchange pipe 240 is recycled to the lower connection point of the solar water heater hot water tank 200, a portion thereof is recycled to the boiler 300. On the other hand, in the spring and autumn when the heating load is low, the hot water of the solar water heater hot water tank 200 in the state of stopping the start of the boiler 300 and the boiler hot water circulation pump 330 is a solar hot water supply pipe, 230 solar hot water circulation pump ( 250), the heating water supply main 320, the heating load facility (400), the heating water return main line 320, the solar hot water return tube 240 is recycled to the solar water heater hot water tank (200). Therefore, in the boiler connection piping and control system for the combined use of solar heating facilities according to the present invention do not install a separate heat storage tank, the hot water of the solar water heater hot water tank 200 is the same as the hot water produced in the boiler 300 It is mixed in one pipe and is recycled to the solar water heater hot water tank 200 and the boiler 300 via the heating load facility 400, respectively, or the heating load by only hot water of the solar water heater hot water tank 200 in a state in which the boiler is stopped. There are two operating cycles that are recycled to the solar water heater hot tub 200 via the facility 400 and can be selected and operated respectively. Meanwhile, embodiments of the present invention as disclosed in the specification and drawings as described above are understood. It is not intended to limit the scope of the present invention, but only to give a specific example to help the invention. When the boiler hot water circulation pump 330 is directed toward the boiler, the solar hot water supply pipe is installed at the pipe contact 340 of FIG. 2 and the solar hot water return pipe is installed at the other pipe contact 350. It is apparent to those skilled in the art to which the present invention pertains.

Therefore, the boiler-linked piping and control system for the combined use of the solar heating facility according to the present invention made of a configuration as described above and the hot water of the solar water heater hot water tank 200 and the hot water produced directly from the boiler 300 By mixing and circulating in the heating load facility 400, it is possible to reduce the operating time of the boiler and increase the utilization rate of solar heat.When the heating load is small, the boiler can be stopped and the hot water can be circulated to the heating load facility by starting the solar water heater alone. It can double the utilization rate of hot water of solar water heater and maximize the saving effect of fossil fuel for boiler. Also, because it does not install heat storage tank, it eliminates heat dissipation loss occurring on the surface and reduces the installation cost and space of building required for installation. The effect of increasing the efficiency can be obtained. Also, two temperature sensors By switching the temperature control method according to one temperature-sensing system can reduce the frequency of operation failure due to aging of the temperature sensor. In addition to that the installation cost and operation energy costs decrease with a circulation pump installed number and operating time reduction.

Claims (1)

In constructing a boiler connection piping and control system for a combined use of solar heat facilities, the solar hot water supply pipe 230 connecting the solar hot water heater 200 and the heating water supply main 320 to the boiler hot water circulation pump 330 ) Is connected to one point 350 in the middle of the heating load facility 400 and the solar hot water circulation pump 250 is installed to flow in the flow direction of the heating water supply pipe 320 at one point 350 of the pipe. The startup is to be started in conjunction with the set temperature of the solar hot water temperature sensor 260, the solar hot water return pipe connecting the lower portion of the solar water heater hot water tank 200 at one point 340 of the heating water return main 310 Boiler-linked piping and control system for combined use of the solar heating facility, characterized in that the installation 240.

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