KR20130006478U - solar floor heating system by dual coil - Google Patents

Abstract

In order to provide sufficient heating with solar hot water only, a solar collector and a heat storage tank are needed to produce a certain amount of hot water compared to the required heating area. However, in winter, due to the short amount of sunshine and low outside air, the limitation of mass production of hot water and the hot water of heat storage tank are becoming difficult to heat by solar due to heat loss problem through storage and piping. Alternatively, the system can circulate the heat medium and it can be heated directly to the floor through solar hot water or heat medium during solar sunshine during the day when heat can be collected through the double-coil floor heating system. After accumulating a certain amount of heat in the heat storage material When the hot water or the heat medium cannot be heated, the heat that is accumulated is naturally radiated through the floor, so most of the heat is radiated naturally in the room to increase the efficiency of heating using solar heat. Since there is no solar heat storage tank that stores heated hot water or a heat medium, it is possible to heat floors by using hot water or heat medium by solar heat, and thus it is economical in terms of efficiency of heating using solar heat and facility cost.

Description

Solar heating system by dual coil

The solar heating system generally uses solar heated hot water or a heat medium to be heated for heating time, or stored in a heat storage tank and used for heating when solar heat is not possible, but solar heated hot water or In order to obtain sufficient heating efficiency with a heat medium, a solar heat collector for large-scale hot water production and a heat storage tank for storing hot water are needed for the required heating area, so the floor heating is concentrated in winter due to the burden of installation cost and the climatic conditions of our country. The efficiency of floor heating using solar power is also set up based on the efficiency of this period. However, due to the short amount of sunshine and low outside air in winter, there is a limit to mass production of hot water with high temperature. There's always a problem of heat loss There are many difficulties in the efficiency of floor heating and the cost of installation.

Instead of having a large-capacity heat collector and heat storage tank for installation of solar floor heating, solar heat is provided through a small solar heat collector and a facility to control the flow of hot water or heat medium, and a floor heating facility by double coils. We have devised a heating system that can directly accumulate the floor to maximize the efficiency of floor heating using heat sinks and eliminate most of the heat loss through heat storage tanks and piping. It can have advantages in both economy and efficiency. In other words, by installing a double coil on the floor requiring heating, the lower coil is connected to the solar heat collecting unit so that the heated hot water or heat medium can flow during the sunshine period where heat can be collected. By heating a certain amount of heat to the ash, during the time when it is not possible to collect heat, the heat accumulated on the floor is radiated naturally in the room to achieve heating efficiency, and the coil provided at the top is insufficient for heating the floor by solar heat. In this case, the solar floor heating equipment is designed by a double coil that is connected to a fuel boiler for auxiliary use, and the heat accumulated directly on the floor using hot water or heat medium heated by solar heat is lost to the outside. This is less and most naturally radiated indoors, so solar floor heating efficiency It is possible to achieve the efficiency of floor heating by solar heat only by installing a double coil on the floor that needs heating and a system that can circulate the solar heat collecting unit, hot water or heat medium without the installation of the heat storage tank. There is also an economic advantage through the reduction of installation cost.

Solar heating uses hot water heated by solar heat directly to the floor heating, or stores heated hot water or heat medium in the heat storage tank, and uses it for heating when solar heat is not possible, and is connected auxiliary when solar heating is insufficient. Electricity. gas. It is common to connect with a boiler using oil.

In order to achieve sufficient heating efficiency with hot water heated by solar heat, a solar heat collector for large scale hot water production and a large storage tank for storage of hot water are needed for the required heating area. In the winter, heating is required intensively in winter, but the short amount of sunlight and low outside air limit the mass production of hot water, and there is always a problem of heat loss through heat storage tanks and hot water pipes even for proper heat treatment.

In order to minimize the operation of fuel boilers and to increase the efficiency of solar boilers, the direct heating is operated at the time when solar heat is collected, and the hot water is stored in the heat storage tank and used for heating to provide a large capacity heat storage tank. In order to solve the problem of heat loss through storage and piping, the floor heating system equipment of the double coil structure is installed on the floor where heating is required. In other words, the hot water or heat medium heated in the solar heat collecting unit is connected to the solar heat collecting unit through a solar heating coil provided at the bottom of the solar heat collecting unit so that the heated hot water or heat medium can flow in the sunshine time where heat can be collected. At the same time, heat is stored by a double coil that heats up a certain amount of heat in the heat storage material and the fuel heating boiler heating coil provided at the top is connected to the fuel boiler for auxiliary use when solar heating is insufficient. Floor heating system.

Current solar heating systems produce large quantities of hot water or heat media in advance when heat is collected and store them in heat storage tanks in order to use them for heating when solar heat is not available. However, in order to obtain sufficient heating efficiency with hot water or heat medium heated by solar heat, it is necessary to install a solar heat collector and a heat storage tank for storing hot water or heat medium for producing a certain amount of hot water in preparation for heating area. Because of the high cost of maintenance, how can we get the efficiency of floor heating through small solar heat collector and hot water or heat medium? In our climatic conditions, heating is intensively needed in winter, but short sunshine and low outside temperature Limit to produce hot water Due to the loss of temperature of the hot water through the heat storage tank and piping where hot water is stored, there is a lot of difficulty in floor heating by hot water or heat medium heated by solar heat, and it is more economical than current system in heating using solar heat. What are the efficient and efficient facilities and methods of use?

Ondol, a traditional floor heating structure in Korea, was heated late in the afternoon or early in the evening, so when heat was stored in a ballpark built on the floor, it was able to stay warm until dawn. The coil provided in the lower portion having the heat storage material is directly connected to the solar heat boiler to drive heat through the hot water or heat medium heated by the solar heat collection unit and to store heat in the heat storage material. In case of insufficient heating by solar provided in the lower part, it is connected to the boiler using fuel to configure the floor heating heating coil system of the double coil structure so that the floor heating can be supplemented, so that hot water or heat heated in the solar collector The heat accumulated on the floor by the medium is then lost through the floor, which requires heating. Since most of the natural radiation inside the facility, it is possible to eliminate most of the problem of heat loss through the heat storage tank and piping, and to use the solar floor heating efficiently without the need for a separate heat storage tank for the storage of hot water heated by solar heat. It is also economically valuable in terms of cost.

In order to use floor heating with hot water heated by solar heat, it is common to store large amount of hot water in the heat storage tank during the day and use it for heating at night when solar heat cannot be collected. Heat storage tank is needed for mass storage of hot water corresponding to the area that needs to be heated for sufficient heating with heated hot water, so installation cost and solar floor heating are used intensively in winter in Korea, but efficiently heated by solar In order to perform floor heating using hot water or a heat medium, high temperature hot water must be produced in large quantities during the day and stored in heat storage. However, in winter, hot water is difficult to produce due to short amount of sunshine and low external temperature. On which axis is stored There is also a problem of heat loss through piping for heating and heating.

In order to solve this drawback, heat is accumulated directly on the floor through the configuration of the solar collector and the circulation system of hot water or heat medium heated by solar heat and the double coil of the floor for heating, which is the contents of this design. There is an economical advantage that the floor can be heated without a heat storage tank that stores large amount of hot water. The heat accumulated by the solar heat collector is less radiated to the outside and is radiated naturally in most heating rooms. As a result, it is possible to save fuel by reducing the operation of fuel-powered boiler that is naturally connected and driven.

Figure 1 illustrates the main part of this design to explain the main contents of the solar heat collecting section and the heat storage tank part for storing hot water, and the heating coil of the heat storage and fuel boiler for heating the solar floor by double coils. (B) Boiler part (C) which uses fuel to be connected to be assisted in the case of insufficient heating by solar heat (C), and shows the structure of the whole equipment and solar floor heating by double coil which is the main content of this design. In order to better understand the coil connection of the fuel-operated boiler to assist with the heat storage and the auxiliary heat storage of the boiler, "Figure 2" describes the double coil and heat storage material of the floor in more detail.

Hot water heated by the solar heat collector (1) on the bottom of the floor required for heating as shown in the section “B” of the attached sheet “1” is laid with an insulator (10) thereon so that the heat accumulated is not lost. Alternatively, the solar heating coil 3 may be connected to allow the heat medium to flow, and the heat may be stored through hot water or the heat medium heated in the solar heat collector 1 such as gravel at a height of 70 mm to 150 mm from the surface of the heat insulating material 10. The heating coil 9 of the fuel boiler 8 is connected to the fuel heating boiler 8 so that the heat storage material 11 can be spread out densely and can be assisted in the case of insufficient heating by the solar heat storage at the top of the heat storage material 11. After that, the bottom of the top is cemented with flooring (12).

 By the temperature sensor 4, the circulation pump 6, and the controller 5 controlling the solar heat collecting unit 1, the solar heat collecting unit 1 circulates when it reaches a predetermined temperature set by the controller 5; Hot water or heat medium flows to the solar heating coil 3 provided at the bottom of the floor which needs to be heated by the operation of the pump 6 so that a certain amount of heat collected by the heat storage material 11 simultaneously installed is performed. The solar heat accumulating unit 1 and the circulation pump 6 capable of circulating the hot water or the heat medium and the controller 5 controlling the same without the heat storage tank 2 capable of storing heat separately to use for heating by storing the hot water separately. Floor heating may be performed by using the heat accumulated in the heat storage material 11 provided, and in the case of storing and using hot water or a heat medium heated in a separate solar heat collector 1, a heat storage tank 2 may be separately provided. And nine Heat storage tank (2) which can determine whether or not to use through the opening and closing of the valve 7.

 When heat is accumulated in the heat accumulating material 11 through the solar heating coil 3 by hot water or a heat medium heated in the solar heat collecting part 1 during the day when possible to sunshine through the above facilities, there is little loss to the outside and most heating Since it is spontaneously radiated in the necessary room, it is possible to remove the problem of heat loss through the heat storage tank and piping when storing hot water in the solar heat storage tank (2) for heating, thereby achieving the efficiency of floor heating by solar heat. The reduction of the operation of the fuel boiler 8 provided in the upper portion has the effect of reducing fuel. In addition, the efficiency of heating using solar heat can be maximized through the heat storage of the bottom by the facility of circulating the solar heat collector 1 and hot water or a heat medium and the facility of the double coil system provided on the floor, which is the contents of the present invention. At the same time, it is economical in terms of the cost of floor heating equipment using solar heat, as it avoids the heat storage tank facility for storing a large amount of hot water.

This is a solar heating system with a double bottom coil of the present invention. The solar collector (1) and the heat storage tank (2), which are part "A" of Figure 1, are fuels for supplying heat to the heating equipment through heated hot water or a heat medium. A firewood boiler, which is a kind of boiler that saves energy, may be connected instead of having a solar heat collecting part (1), and a fuel boiler 8 refers to a boiler using ordinary fuel such as oil and gas. (11) is enough material to store the heat such as gravel and naturally radiate, and the height can be adjusted according to the climatic conditions of the area where the heat storage material 11 is installed in the range of 70 ~ 150mm height to the floor. Do.

A- part of heat storage tank to store solar collector and hot water
B- Double bottom heating coils and heat accumulator parts of solar and fuel boilers
C-fuel boiler part
1-solar heat collector
2-heat storage tank
3-solar heating coil
4-solar heat collector temperature sensor
5-controller
6-circulating motor
7-opening and closing valve
8-fuel boiler
9-fuel use boiler heating coil
10-insulation
11-heat storage material
12-bottom finish

Claims (1)

Solar heating system by double bottom coil

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