KR20120133278A - a hotwater supply device of the solar energy - Google Patents

Abstract

PURPOSE: A cap type of a hot water supply device using a solar collector is provided to prevent thermal losses in a heat collection pipe by keeping a distance from the heat collection pipe. CONSTITUTION: A cap type of a hot water supply device using a solar collector comprises a water supply pipe(140), a hot water discharge pipe(150), a cap type of a heat collection pipe cover, and an insulation member. The hot water discharge pipe is installed on the other side to discharge supplied water after heating the water with solar heat. One end of the heat collection pipe cover is fixed to the water supply pipe, and the other end is fixed to the hot water discharge pipe. The insulation member is fixed to the inner wall of the heat collection pipe cover. A space is formed between the insulation member and a heat collection pipe to prevent thermal losses in the heat collection pipe.

Description

Cap-type hot water supply device using solar plate collectors {a hotwater supply device of the solar energy}

The present invention relates to a hot water supply device to heat the supply water by reflecting the heat of the solar heat to supply hot water, and more particularly, to form a concave dish-shaped reflecting plate to reflect the heat of the sun to reflect the incoming solar heat It relates to a cap-type hot water supply device using a solar plate-shaped collector to be supplied while the water supplied by the reflected solar heat is rapidly heated.

In recent years, due to the lack of fossil fuels, the use of alternative energy such as wind, solar, and geothermal power generation or heating water is increasingly used for heating devices.

In particular, in buildings such as houses, solar panels are used to install solar panels, collectors, etc. to construct hot water devices, to supply the necessary hot water using solar heat, and to enable heating, thereby reducing heating energy.

The hot water supply device 50 using the conventional solar heat as shown in FIG.

Dish-shaped collector 70 is provided with a reflector plate 60 to reflect the sun at a predetermined angle while forming a plate shape, and concentrated the heat of the sun reflected by the dish collector 70 in one place The water supply pipe 80 is installed so as to be reflected and heated while the water is supplied to the reflected and concentrated position.

Therefore, the hot water supply device using the conventional solar heat as described above is heated in the water supply pipe 80 by the solar heat reflected from the dish-type collector 70 to one place and then the water supply pipe Water flowing into the interior of 80 is heated.

The hot water inside the heated water supply pipe 80 may be used as living water in winter and used where a hot water is needed, such as a plastic house.

In addition, by allowing the first hot water to be supplied to the winter hot water supply system, it is possible to obtain an economic effect that can reduce the energy used through the gas boiler or oil boiler.

However, the hot water supply device using the conventional solar heat as described above is to heat the water supply pipe (80) by the solar heat is reflected in the dish-type collector 70 collected in one place, the water supply pipe There is a structural problem that the structure of the pipe is heated to the pipe structure by the solar heat reflected by (80), and the thermal efficiency is considerably lower than that of the plate to heat the water by the same solar heat.

Therefore, the present invention has been made to solve the above problems, the sun is reflected through the concave collector and the plate shape is very thin so that the water supplied by the reflected solar heat can be heated rapidly to the curved surface And a heat collecting pipe formed at both ends thereof, and having a water supply pipe and a discharge pipe connected to both ends thereof, and at the same time, a heat insulating material is installed at an upper side of the heat collecting pipe so that water flowing into the heat collecting pipe is reflected by the solar heat reflected from the concave collector. It is an object of the present invention to provide a cap-type hot water supply device using a solar plate-shaped collector that can dramatically improve hot water heating efficiency by enabling rapid rapid heating.

In order to achieve the above-described concave shape of the present invention, the reflector 110 is installed on the top of the collector 120 having the reflector 110 installed therein so as to receive the sunlight and reflect it along a predetermined angle. In the cap-shaped hot water supply device that collects and heats the solar heat reflected by the hot water,

The hot water supply device is installed on the upper center side of the collector 120 and the plate so that the water flowing into the solar heat reflected through the reflecting plate 110 installed in the collector 120 is collected therein to be heated. A collection pipe 130 having a shape, a supply water inflow pipe 140 installed in communication at one end thereof so that the supply water flows into the collection pipe 130, and the supply water introduced into the collection pipe 130 is reflected. And the hot water discharge pipe 150 is installed in communication with the other end so as to be discharged and supplied after being heated by the collected solar heat, and is installed at a predetermined interval on the outside of the heat collecting tube 130, but once the supply water inflow pipe It is fixed to the 150 and the other end is fixed to the inner wall of the cap-shaped heat collecting pipe cover 160, and the heat collecting pipe cover 160 is fixed to the hot water discharge pipe 150 and fixed to the heat collecting pipe 130 While the space 170 of the interval is formed Characterized in that consisting of a heat insulating material 180 to block the heat loss of the heat collecting tube (130).

Therefore, the cap-type hot water supply device using the solar plate collector according to the present invention has a thin plate curved surface so that the supply water can be heated by the reflected solar heat by reflecting the incoming solar heat by making the reflecting plate collecting solar heat into a concave dish shape. By installing the plate-shaped heat collecting tube, the feed water passing through the heat collecting tube can be heated by solar heat in an instant, thereby improving the thermal efficiency dramatically, and the economical advantages are improved.

In addition, it is possible to supply hot hot water quickly to the need, the utilization efficiency will be significantly improved.

In addition, the thermal efficiency using solar heat is improved, so that fossil fuel can be reduced, and thus an environment-friendly hot water supply system can be constructed.

1 is a schematic use state diagram using a plate-type collector in the cap-type hot water supply device using a solar plate-shaped collector according to the present invention,
Figure 2 is a schematic use state diagram using a tunnel-type collector in the cap type hot water supply device using a solar plate-shaped collector according to the present invention,
3 is a schematic state sectional view of a cap type hot water supply device using the solar plate collector according to the present invention;
Figure 4 is a schematic plan view of the cap type hot water supply device using a solar plate collector in accordance with the present invention,
5 is a schematic system state diagram in which hot water is supplied to a heat exchanger by applying a cap type hot water supply device using a solar plate collector according to the present invention;
6 is a schematic state diagram of a hot water supply apparatus using a conventional solar collector.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Cap type hot water supply device 100 using a solar plate collector of the present invention, as shown in Figures 1 to 3,

It is provided on the upper portion of the concave dish or concave semi-cylindrical collector 120, the reflecting plate 110 is installed therein so as to form a concave plate shape to receive the sunlight and reflect along a predetermined angle,

A thin curved plate-shaped heat collecting tube installed at an upper center side of the heat collector 120 and configured to heat solar water reflected through the reflector 110 installed at the heat collector 120 to heat water introduced therein. 130,

Supply water inlet pipe 140 is installed in communication with one end so that the supply water flows into the heat collecting tube 130,

Hot water discharge pipe 150 is installed in communication with the other end so that the supply water introduced into the heat collecting pipe 130 is reflected by the heat collected by the solar heat is collected and discharged;

It is installed at a predetermined interval on the outside of the heat collecting pipe 130, one end is fixed to the supply water inlet pipe 150 and the other end is cap-shaped heat collecting pipe cover 160 is fixed to the hot water discharge pipe 150, and

The heat insulating member 180 is fixedly installed on the inner wall of the heat collecting tube cover 160 to block heat loss of the heat collecting tube 130 while the space 170 is formed at a predetermined interval with the heat collecting tube 130. Insulation material).

Here, the supply water inlet pipe 140 and the hot water discharge pipe 150 are provided with an on-off valve (not shown) so as to supply or block the supply water and the hot water supplied and discharged therein, respectively.

형상, 터널형상 등으로 필요에 따라 적절한 모양으로 변형시켜 구성할 수 있다.And the heat collecting tube cover 160 is formed in a convex dish shape, a semi-circular dish shape or a half diamond shape or U-shaped,

It can be configured by deforming to an appropriate shape as needed, such as a shape, a tunnel shape.

As shown in FIG. 3, the heat collecting tube 130 and the heat collecting tube cover 160 have a '으로' shape.

In addition, the heat collecting tube 130 is coated with a heat absorbing material 131 so as to prevent the loss of solar heat reflected and collected, and the heat absorbing material 180 absorbs more heat from the space 170 so that thermal efficiency is improved. The heat absorbing material 181 is provided with a coating structure so that this can be improved.

In addition, a fastening member 190 is fixed to a central upper end of the heat collecting tube cover 160 to penetrate and fix the heat collecting tube 130.

In addition, one of the important features of the present invention, as shown in Figure 4, by the heat collected by the solar heat compared to the diameter (width of water flowing) 'a' of the feed water inlet pipe 140 and the hot water discharge pipe 150 The width 'b' of the heat collecting tube 130, which is a portion where the supply water is heated, is formed to have a larger width (a <b).

In addition, the thickness T of the heat collecting tube 130 has a structure that is thinner than the thickness t of the hot water discharge tube 150 (T <t).

Therefore, the amount of solar heat reflected by the heat collecting tube 130 is significantly higher than that of the supply water inlet tube 140, and the supply water flowing into the heat collecting tube 130 is more widely dispersed, and thus the supply water is rapidly heated and supplied. It becomes possible.

In addition, the configuration of the heat collecting tube 130 may be configured by connecting a plurality of small diameter pipes such as capillaries in parallel.

In addition, the heat collecting tube 130 according to the present invention, as shown in Figures 1 and 2, can be installed to be configured by deforming in various convex upwards to collect the solar heat more efficiently, Figure 1 The heat collecting tube illustrated in FIG. 2 is configured in the shape of a dish, and the heat collecting tube illustrated in FIG. 2 is illustrated in the embodiment in which the outward tube is formed in a tunnel shape, and other shapes depending on the heat collecting environment or conditions Of course, it can be transformed into.

As such, when the structure of the collecting pipe 130 is configured to connect a plurality of capillaries having extremely small diameters in parallel, the supply water flowing through the supply water inlet pipe 140, which is a single large diameter pipe, is collected in the collecting pipe 130. It can be rapidly heated by the solar heat collected through a wide spread flow through.

Cap type hot water supply device 100 using the solar plate collector of the present invention configured as described above, as shown in Figs.

Solar heat is received by the collector 120 and reflected through the reflector 110 to the collector tube 130 along a predetermined angle.

The reflected solar heat is collected in the heat collecting tube 130 to heat the supply water flowing therein.

At this time, the heat collecting tube 130 is more solar heat is collected by the heat absorbing material 181 coated on the outside so as to significantly improve the heat collecting efficiency of the solar heat is collected, the space portion 170 and the heat insulating material The heat energy collected by the heat absorbing member 131 coated on the heat insulator 180 and the heat insulator 180 is prevented from being transferred to the outside.

As the solar heat is collected by the heat collecting tube 130 as described above, the supply water supplied therein is rapidly heated to be supplied to an external heat exchanger 200 or other requirements.

When the hot water supplied as described above is supplied to an external heat exchanger 120, it is possible to reduce the fossil fuel or electric energy required to operate the heat exchanger 200, thereby improving economic efficiency, and the like. It can be used as a plastic house or household water that requires hot water, so it has the advantage of establishing and operating an environment-friendly system.

Reference Signs List 100: hot water supply device 110: reflector plate 120: plate collector 130: collector tube
140: supply water inlet pipe 150: hot water discharge pipe 160: heat collecting pipe cover 170: space
180: heat insulating material 190: fastening member 200: heat exchanger

Claims (4)

It is installed on the top of the heat collector 120, the reflector 110 is installed therein so as to receive the sunlight and reflect along a predetermined angle to form a concave shape to collect the heat of heat reflected by the reflector 110 In the cap-shaped hot water supply device for heating and supplying hot water,
The hot water supply device,
It is installed on the upper center side of the collector 120 and the heat collecting pipe made of a plate-shaped so that the water flowing into the solar heat reflected through the reflecting plate 110 installed in the collector 120 is heated ( 130),
Supply water inlet pipe 140 is installed in communication with one end so that the supply water flows into the heat collecting tube 130,
Hot water discharge pipe 150 is installed in communication with the other end so that the supply water introduced into the heat collecting pipe 130 is reflected by the heat collected by the heat collected by the solar and discharged;
It is installed at a predetermined interval on the outside of the heat collecting pipe 130, one end is fixed to the supply water inlet pipe 150 and the other end is cap-shaped heat collecting pipe cover 160 is fixed to the hot water discharge pipe 150, and
As the heat insulating material 180 is fixed to the inner wall of the heat collecting tube cover 160 and the heat collecting tube 130 is formed with a space portion 170 at a predetermined interval to block the heat loss of the heat collecting tube 130. Cap-type hot water supply device using a solar plate collector, characterized in that the configuration.
The method of claim 1,
In addition, the heat collecting tube 130 is coated with a heat absorbing material 131 so as to prevent the loss of the solar heat is reflected and collected, heat absorption to the heat insulating material 180 to the space portion 170 to improve the thermal efficiency The heat absorbing material 181 is coated so that,
Cap-type hot water supply using a solar plate-shaped collector, characterized in that the central upper end portion of the heat collecting tube cover 160 is further provided with a fastening member 190 to penetrate and fix the heat collecting tube 130. Device.
The method of claim 2,
The heat collecting tube 130 is fixedly connected to the heat collecting tube cover 160 and its shape is '∩' shape or

Cap-type hot water supply device using a solar plate collector, characterized in that the configuration, consisting of a tunnel shape.
The method of claim 3,
The width 'b' of the heat collecting pipe 130, which is a portion in which the supply water is heated by solar heat collected, is compared with the diameter (width of water flowing) 'a' between the supply water inlet pipe 140 and the hot water discharge pipe 150. Larger (a <b),
In addition, the thickness T of the heat collecting tube 130 is cap-type hot water supply device using a solar plate-shaped collector, characterized in that made of a structure formed thinner (T <t) than the thickness t of the hot water discharge pipe (150).

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