KR20120017310A - Solar heat boiler - Google Patents

Abstract

PURPOSE: A solar boiler is provided to effectively heat water passing through a convection pipe by forming a heating pipe in a dual pipe structure outside the convection pipe. CONSTITUTION: A solar boiler comprises a plurality of heat collecting pipes(20), connecting pipes(25), and a circulating pipe(30). The heat collecting pipes are formed in a pipe shape to collect solar heat. The connecting pipes are formed on the upper or lower part of the heat collecting pipe, connect neighboring heat collecting pipes and are formed in a row to have one path. The connecting pipes are formed in a vacuum state. The circulating pipe is spirally formed in the heat collecting. Water supplied through one end of the circulating pipe is heated in a circulation process and is discharged through the other end of the circulating pipe.

Description

Solar Boiler {SOLAR HEAT BOILER}

The present invention relates to a solar boiler, and more particularly, to reduce the manufacturing cost by forming a simple structure, and in particular to a solar boiler that can be formed to have a small area can be installed on the exterior walls or railings of houses and apartments.

In general, solar energy is widely used for heating and hot water supply in buildings such as houses due to the advantages of infinite energy and pollution.

Briefly explaining the principle of the use of the sun, first, the heat medium heated in the solar collector installed outside the building is transferred to the heat storage tank and heats the water in the heat storage tank through heat exchange. The hot water heated in the heat storage tank is supplied to the room by a heating circulation pump that interlocks with a temperature controller that is turned on / off as the temperature is high and low at the room temperature, and used for heating and hot water supply. However, when the solar radiation is insufficient according to the weather, the water in the heat storage tank is heated to a certain temperature using a boiler by an auxiliary heat source and used for heating and hot water supply.

In particular, most of the apartment railings are installed on the veranda and roof, facing the southeast with good sunlight, and have optimal conditions for collecting solar heat. However, at present, apartment balconies and rooftop railings are not properly utilized.

As such, the related art related to the heating and hot water supply system using solar heat is disclosed in Korean Patent Laid-Open Publication No. 1999-0039418 and Korean Utility Model Registration No. 20-0269572.

The heating and hot water supply system using solar heat according to the prior art heats the heat medium in the heat collector provided to collect solar heat on the outside of the structure and automatically operates the circulation pump according to the heat medium temperature sensor to transfer the heat generated from the heat collector to the heat storage tank. Heat is stored in the heat storage tank through heat exchange.

However, a collector for collecting solar heat in the prior art has a flat plate type by arranging a plurality of light collecting cells or vacuum glass tube collector plates. Therefore, in order to install a flat plate collector, many restrictions have been attached to the collector because it is installed on the roof of a building due to the volume and the occupying area of the plate type, or because a separate installation mechanism for mounting the collector is installed.

In addition, the structure of the veranda-type solar collector according to the prior art is a heat reflection insulating material, a heat absorbing plate, and a flow path tube are respectively attached on the urethane panel used as a heat insulating material, the heat absorbing plate is to be able to adjust the angle according to the inclination angle. have.

However, when the solar heat collector according to the prior art is installed on the porch, the solar heat may be collected because it shields a part or all of the porch, but there is a problem in that the ventilation and vista function, which are the original functions of the porch railing, are lost. In addition, when installed on a part of the porch, the load is concentrated on a part of the porch railing, causing problems in the safety of the porch railing.

In addition, the solar boiler installed on the existing veranda has a very low efficiency due to the small amount of solar heat collection due to the small area installed. And the heating area is small, it was difficult to expect high efficiency.

The present invention has been made to solve the above problems, the object of the present invention is to form a simple structure without a separate configuration such as heat exchange tank to reduce the manufacturing cost, in particular to have a single passage in each of the heat collecting pipes By forming, the heating time and heating area compared to the same installation area is increased compared to the conventional solar boiler to provide a solar boiler that can obtain a much higher efficiency than the conventional solar boiler by more than three to four times.

In addition, another object of the present invention is to provide a solar boiler that can be produced in an urban type suitable for modern society, such as high efficiency can be obtained even in a small area and installed on the exterior walls and handrails of houses and apartments.

In addition, another object of the present invention is to provide a solar boiler capable of more effectively heating the raw water passing through the convection pipe by forming a double tube structure by having a heating tube separately outside the convection pipe.

The configuration of the present invention for achieving the above object, in the solar boiler is installed on the outer wall or railings of houses and apartments to collect the solar heat to heat the supplied raw water, a plurality of tubular having a predetermined length to collect the solar heat Two heat collecting pipes 20 pipes; A connection pipe 25 provided at an upper portion or a lower portion of the collection tube 20 to connect adjacent collection tubes 20 to form one line to have a single passage, and the collection tube 20 to be formed in a vacuum state. and; Spirally rolled up inside the heat collecting pipe 20 formed in a line by the connecting pipe 25, and the raw water supplied through one end is heated while convection is discharged through the other end to the convection pipe 30 Characterized in that made.

Here, the heat collecting tube 20 is formed in a spiral shape so as to surround the outside of the convection tube 30, the heating tube with a heating medium therein so as to effectively heat the raw water passing through the convection tube 30 It is preferable that 35 is provided.

According to the present invention configured as described above, it is possible to form a simple structure without a separate configuration such as a heat exchange tank to reduce the manufacturing cost and obtain a high efficiency even in a small area to be installed on the exterior walls or railings of houses and apartments It is effective to produce urban type suitable for modern society.

1 is a perspective view of a solar boiler according to the present invention,
Figure 2 is a cross-sectional view showing the interior of the heat collecting tube according to the present invention,
3 is a state diagram showing a convection tube wrapped with a heating tube according to the present invention,
4 is a cross-sectional view taken along line AA of FIG. 3;
Figure 5 is a state diagram showing a solar boiler in a state installed on the railing according to the present invention.

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

As shown in FIG. 5, the solar boiler according to the present invention may be attached to a railing of a house and an apartment, or may be installed for a railing stand. It is easy to install.

The solar boiler of the present invention is a system that heats raw water supplied by using the collected solar heat without collecting the solar heat and storing it in a separate heat storage tank. It does not need to be provided, and the structure and parts can be reduced compared to the existing structure and parts configuration, so that it can be used as a landmark urban boiler.

1 and 2, the solar boiler of the present invention is provided with a plurality of heat collecting tubes 20 formed in a tubular shape having a predetermined length to collect solar heat, and are provided on the upper or lower portion of the heat collecting tube 20. Connected to the adjacent heat collecting pipes 20 and formed in a row to have a single passage, and the inside of the heat collecting pipes 20 formed in a row by the connecting pipes 25 in a spiral shape. Convection pipe 30 is formed by rolling.

The heat collecting tube 20 is a tube for heating the convection tube 30 by collecting solar heat, and is made of a glass tube or the like, and is formed as a vacuum tube as the connection tube 25 is connected.

At this time, the heat collecting pipe 20 is to be connected to the connecting pipe 25 while being spaced apart from each other at a predetermined interval to allow ventilation and viewing between each heat collecting pipe 20 when installed on the balustrade such as a veranda. desirable.

As a means for installing the heat collecting pipe 20 on the railing, it may be provided with a hooking ring and placed over the upper horizontal frame of the railing, or it may be fixed to the vertical frame of the railing with a fixing clamp. It can be fixed through a fixing method commonly used to fix the article to the outer wall, the present invention relates to a solar boiler of the urban type of the new method, the fixing method of the boiler, specifically the fixing method of the heat collecting pipe 20. You may use any well-known method.

The connection tube 25 may be made of a material such as glass tube or transparent acrylic, and the collection tube 20 is connected to each other and the collection tube 20 is formed as a vacuum tube.

In this case, the convection pipe 30 is formed in a spiral shape in the heat collecting pipe 20, and is connected to the convection pipe 30 to separate the convection pipe connector to move the raw water in the convection pipe 30. (27) is provided.

The convection pipe 30 is one end is connected to the raw water supply unit 40, the other end is connected to the raw water discharge unit 45, the raw water supplied through the raw water supply unit 40 of one end is heated while convection and the other end Through the raw water discharge portion 45 is to be discharged.

Since the convection pipe 30 is formed in a spiral shape, the heating time in the heat collecting pipe 20 becomes very long, and also has a considerable length from one end to the other end, and thus only passes through the convection pipe 30. It is heated to discharge hot water.

On the other hand, the solar boiler of the present invention, as shown in Figures 3 and 4, the convection pipe can be a dual structure to significantly increase the efficiency.

That is, the heat collecting tube 20 is further provided with a heating tube 35 formed spirally to surround the outside of the convection tube 30, the heating tube 35 is the convection tube 30 The heating medium is embedded therein to effectively heat the raw water passing through it.

The heating medium embedded in the heating tube 35 is heated by solar heat in a state of being embedded in the heating tube 35 without additional inflow or outflow, and raw water passing through the convection tube 30 in this state. Will be heated.

As such, the heating tube 35 may be provided to double the thermal efficiency by dramatically increasing the thermal conductivity.

Looking at the effect of the present invention configured as described above, the convection pipe 30 is provided in the interior of the heat collecting pipe 20 in a spiral shape, in this state by supplying the raw water through the raw water supply unit 40 in the convection pipe When introduced into the (30) is heated by the solar heat collected in the heat collecting pipe 20 while passing through the convection pipe (30), while continuing to heat in this state to move along the convection pipe (30), the convection As the pipe 30 has a considerable length, the raw water is heated in the moving process, converted into hot water, and then discharged through the other end of the convection pipe 30 to move to the raw water discharge part 45.

The hot water discharged through the raw water discharge unit 45 is used as living water or for heating to heat the heating area.

Such a solar boiler of the present invention is a structure to convert the raw water to hot water only by moving the raw water without having a heat storage tank that must be provided in the existing boiler, suitable for high-rise buildings and apartments many areas It can be manufactured in the urban type of the modern society so that it can be used in a simple manner, and in particular, the maximum efficiency can be obtained even in a small area, thereby reducing the consumption of other energy.

10: handrail 15: fixed part
20: collecting pipe 25: connector
27: convection pipe connector 30: convection pipe
35: heating pipe 40: raw water supply
45: raw water discharge part

Claims (2)

In the solar boiler is installed on the outer walls or railings of houses and apartments to collect solar heat to heat the raw water supplied,
A plurality of heat collecting pipes 20 formed in a tubular shape having a predetermined length to collect the solar heat;
A connection pipe 25 provided at an upper portion or a lower portion of the collection tube 20 to connect adjacent collection tubes 20 to form one line to have a single passage, and the collection tube 20 to be formed in a vacuum state. and;
Spirally rolled up inside the heat collecting pipe 20 formed in a line by the connecting pipe 25, and the raw water supplied through one end is heated while convection is discharged through the other end to the convection pipe 30 Solar boiler, characterized in that made of.
The method of claim 1,
The heating tube 35 is formed in a spiral shape to surround the outside of the convection tube 30, and has a heating medium therein so as to effectively heat raw water passing through the convection tube 30. Solar boiler characterized in that is provided.

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