KR101797393B1 - By heating the composite system - Google Patents

Abstract

The present invention relates to a composite heating furnace system. More particularly, the present invention relates to a composite heating furnace system can increase the inner temperature of a crucible of a heating furnace through a reflecting plate collecting solar light in a heater unit arranged on a side surface of the crucible of the heating furnace and a heat absorbing plate of the heating furnace, thereby utilizing the composite heating furnace system in a system requiring electrolysis outside like a hydrogen production system or the like, seawater desalination, etc. as well as using the composite heating furnace system in a place necessary for a heating system of a desert or a place difficult to access electricity or the like or a composite heating furnace utilizing solar energy and solar heat energy.

Description

{By heating the composite system}

According to the present invention, the temperature inside the crucible of the heating furnace can be raised at a higher efficiency through the heater portion disposed on the side of the crucible of the heating furnace and the reflector for collecting sunlight on the heat absorbing plate of the heating furnace, System, and seawater desalination. In addition, it can be used in a heating furnace that utilizes solar energy and solar energy, or in a place where a heating system such as a desert or a place where electric access is difficult is required To a combined furnace system.

Conventional methods of using solar thermal energy include conventional solar thermal systems that make hot water through solar thermal, and cooking appliances that use dish-type solar thermal condensers.

In addition, dish-type solar thermal systems have been studied to produce hydrogen through furnace after obtaining high heat by highly condensing solar thermal.

Generally, there is a photovoltaic power system to produce electricity using solar energy. It uses multiple reflectors to collect the reflected solar energy in one place, and it gets a high temperature of hundreds to thousands of degrees and uses it as a heat source Concentrated solar power (CSP), which produces electricity, is available.

A PVT system is one of the typical ways to utilize the characteristics of solar thermal energy and photovoltaic power at the same time.

A PVT system is a system in which a solar cell is placed on the front side and a solar thermal side tube is installed on the rear side of the PVT system.

Previously, a furnace utilizing solar energy directly utilized heat, but there was no system to control the internal heat of the furnace by placing an electric heating coil inside.

Korean Patent Registration No. 10-1290110

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to provide a heating furnace which has a heater portion disposed on a side surface of a crucible of a heating furnace, It is possible to utilize it for systems requiring electrolysis from the outside such as a hydrogen production system and for desalination of seawater, as well as a heating furnace utilizing a combination of solar energy and solar energy, And which can be used in a place where a heating system such as a place is required.

According to an aspect of the present invention, there is provided a crucible comprising: a crucible having an inlet at an upper portion thereof and a heat absorbing plate at a lower center thereof; a heater disposed at a side of the crucible; A heating furnace including a heat insulating portion provided on lower and side surfaces excluding the heat absorbing plate, and an outer cover for inspecting the heat insulating portion such that the heat absorbing plate is exposed downward; A support frame for supporting the heating furnace at a predetermined height; And a solar heat collecting unit disposed on the lower side of the heating furnace and having a concave reflecting plate for collecting solar heat by condensing the sunlight to the heat absorbing plate of the heating furnace.

Here, it is preferable that the heater unit generates heat by a power source generated by the solar power generating unit.

It is preferable that the bottom surface of the heat absorbing plate is provided with concave and convex portions.

Further, it is preferable that a transparent cover is provided at the lower center of the heating furnace so as to be located in a lower direction of the heat absorbing plate.

An angle adjusting unit for adjusting an angle of the solar heat collecting unit; A sun position detecting unit for detecting the position of the sun; And a control unit for controlling the angle adjusting unit according to the position of the sun detected by the sun position detecting unit to condense sunlight onto the heat absorbing plate.

In addition, it is preferable that the reflector of the solar heat collecting part is composed of a plurality of reflectors divided by a predetermined angle, and a plurality of reflector plates are provided to rotate the reflector in different directions so that the sunlight is not condensed into one place Do.

Here, the plurality of reflection plates may include a one-side reflection plate and a second reflection plate, and the reflection plate rotation frame may include a reflection plate support frame in which a lower portion of the one side reflection plate and a lower portion of the other reflection plate are axially coupled to one upper side and the other upper side; One side link member and the other side link member, the top side being axially coupled to the other side of the one side reflector and one side of the other side reflector; A first movable body and a second movable body axially coupled to the lower portion of the one link member and the lower portion of the other link member, respectively; The one side moving body and the other side moving body are rotated in a state where they are respectively screwed to one side of the center portion and the other side of the center portion so that one side of the one side side reflector and one side of the other side reflector are gradually spaced apart, A bidirectional lead screw for moving the one side of the one side reflector and the other side of the other side reflector to one direction of the one side of the one side reflector and the other side of the other side of the other side reflector; And a driving member for rotating the bi-directional lead screw.

The present invention relates to a heating furnace, which comprises a heater portion disposed on a side surface of a crucible of a heating furnace, and a reflector for condensing sunlight on a heat absorbing plate of the heating furnace, through a high temperature heat generated in the crucible of the heating furnace, It is possible to raise the temperature to a higher efficiency, and thus it can be utilized for a system that requires electrolysis in the open air such as a hydrogen production system, desalination of seawater, and the like. Further, it is possible to utilize solar energy and solar energy, There is an effect that it can be used in a place where a heating system such as a place where access is difficult is needed.

FIG. 1 is a cross-sectional view schematically showing a multiple heating furnace system according to an embodiment of the present invention,
2 is a cross-sectional view schematically showing a state in which sunlight is condensed on a heat absorbing plate of a heating furnace,
3 is a cross-sectional view schematically showing a state in which a transparent cover is provided in a lower direction of a heat absorbing plate,
4 is a block diagram schematically showing a control state of the control unit,
5 and 6 are cross-sectional views schematically showing a process of rotating a plurality of reflection plates by a reflection plate rotating member.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view schematically showing a multiple heating furnace system according to an embodiment of the present invention; FIG.

1, a combined heating furnace system according to an embodiment of the present invention includes a heating furnace 10, a support frame (not shown), and a solar heat collecting unit 30 as shown in FIG.

First, the heating furnace 10 includes a crucible 110, a heater 120, a heat insulating part 130, and an outer cover 140.

An inlet 111 through which the object 3 to be heated, such as seawater, is injected into the crucible 110 is formed on the crucible 110.

A heat absorbing plate 113 is provided at a lower center of the crucible 110 so as to be positioned in an upper direction of a through hole 112 formed in the lower center of the crucible 110.

The heater 120 may be formed on the side surface of the crucible 110 to radiate heat of high temperature into the crucible 110.

The heat insulating part 130 is provided on the lower and side surfaces of the crucible 110 excluding the heat absorbing plate 113 of the crucible 110 with the heater part 120 wrapped around the heat insulating part 130.

The heat insulating part 130 may be detachably mounted on the upper part of the crucible 110 to open and close the inlet 111 formed on the upper part of the crucible 110.

The outer cover 140 surrounds the heat insulating part 130 such that the heat absorbing plate 113 is exposed to the outside of the crucible 110.

The supporting frame (not shown) may be vertically formed on the lower side and the lower side of the outer cover 140 of the heating furnace 10 or on the lower front side and the lower rear side of the outer cover 140, And a support leg vertically formed on each of a lower side, a lower side, a lower front side and a lower rear side of the outer cover 140 to support the heating furnace 10 at a predetermined height from the outdoor ground.

2 is a cross-sectional view schematically showing a state in which sunlight is condensed on a heat absorbing plate of a heating furnace.

2, the sunlight is collected by the heat absorbing plate 113 of the heating furnace 10, and the heat is absorbed by the heating furnace 10, (310) for heating the crucible (110) of the honeycomb structure (10).

Next, the heater unit 120 may generate heat by a power source generated by the solar power generating unit 40 as shown in FIG.

Next, concave and convex portions 114 may be formed on the bottom surface of the heat absorbing plate 113 as shown in FIG.

The area of contact between the heat absorbing plate 113 and the sunlight can be further increased by the irregularities 114, and the heating efficiency of the crucible 110 can be further improved.

3 is a cross-sectional view schematically showing a state in which a transparent cover is provided in a lower direction of a heat absorbing plate.

3, in order to prevent the heat absorbed by the heat absorbing plate 113 from being radiated outwardly toward the lower side of the heating furnace 10 through the sunlight, The transparent cover 150 may be bolted to the lower center of the outer cover 140 of the heating furnace 10 so as to be positioned in the lower direction.

The transparent cover 150 may be made of various kinds such as heat-resistant glass.

4 is a block diagram schematically showing a control state of the control unit.

Next, as shown in FIG. 4, an angle adjusting unit 40, a sun position detecting unit 50, and a controller 60 may be further provided.

The angle adjusting unit 40 adjusts the angle of the reflecting plate 310 of the solar heat collecting unit 30 according to the position of the sun.

The sun position detection unit 50 detects the position of the sun.

The control unit 60 may control the angle adjusting unit 40 according to the position of the sun detected by the sun position detecting unit 50 so as to condense sunlight to the heat absorbing plate 113. [

The angle adjusting unit 40, the sun position detecting unit 50, and the controller 60 are known matters and can be understood by those skilled in the art to which the present invention belongs. , And a detailed description will be omitted below.

5 and 6 are cross-sectional views schematically showing a process of rotating a plurality of reflection plates by a reflection plate rotating member.

5, the reflector 310 of the solar heat collecting part 30 may include a plurality of reflectors 310 divided into a predetermined angle.

The reflection plate rotation member 320 may be provided to rotate the plurality of reflection plates 310 in different directions so that the sunlight is not condensed to one end of the heat absorption plate 113 through the plurality of reflection plates 310 have.

 As shown in FIGS. 5 and 6, the plurality of reflection plates 310 may include a one-sided reflection plate 311 and a second reflection plate 312 formed symmetrically.

The reflector rotating member 320 includes a reflector supporting frame 321, a first link member 322, a second link member 323, a first movable body 324, a second movable body 325, a bidirectional lead screw 326, And a driving member 327.

One side and the other side of the reflector support frame 321 are vertically bent in the upper direction of the reflector support frame 321 so that the lower one side of the one side reflector 311 and the other lower side of the other side reflector 312 are seated and supported can do.

One side extension bar 328 and the other side extension bar 329 that extend horizontally in the lower center portion of the one side reflector 311 and the lower center portion of the other side reflector 312 are formed on one upper side and the other upper side of the reflector support frame 321, May be formed.

The other side of the one side extension bar 328 is axially coupled to the lower center of the one side reflection plate 311 and one side of the other side extension bar 329 is connected to the lower center of the other side reflection plate 321 Can be axially coupled.

The upper portion of the one link member 322 and the upper portion of the other link member 323 may be axially coupled to the lower side of the one side reflector 311 and the lower side of the other side reflector 312, respectively.

The lower portion of the one link member 322 and the lower portion of the other link member 323 may be axially coupled to the one movable body 324 and the other movable body 325, respectively.

The one side moving body 324 and the other side moving body 325 may be seated above the middle portion of the reflector support frame 321.

The one side moving body 324 and the other side moving body 325 can be screwed to one side and the other side of the central portion of the bidirectional lead screw 326, respectively.

If the bidirectional lead screw 326 rotates in the forward direction under the control of the controller 60 in a state where the operation of the heater unit 120 is stopped under the control of the controller 60, And the other movable body 325 are moved in the one direction and the other direction of the bidirectional lead screw 326, the other side of the one side reflector 311 and the other side of the other side reflector 312 are gradually separated from each other, So that solar light can not be condensed to one end of the heat absorbing plate 113 through the reflection plate 310. [

At the same time, one side of the one side reflector 311 and the other side of the other side reflector 312 are rotated and moved toward the upper side of the one side reflector 311 and the other side upper side of the other side reflector 312 as shown in FIG. .

The driving member 327, which may be a driving motor or the like, may be fixed to one side or the other side of the reflection plate support frame 321 by bolts or the like to rotate the bidirectional lead screw 326 in normal and reverse directions.

The operation of the heater unit 120 is stopped under the control of the control unit 60 and the control unit 60 controls the reflection plate rotation member 320 so that the other side of the one side reflection plate 311 and the other side It is impossible to heat the heating furnace 10 through the heat of high temperature when the one side of the reflecting plate 312 is gradually opened and apart so that a safety accident such as burning of the operator by high temperature heat is generated So that it can be easily prevented.

The present invention constructed as described above is characterized in that the heater part 120 disposed on the side of the crucible 110 of the heating furnace 10 and the reflection plate 310 for condensing sunlight on the heat absorbing plate 113 of the heating furnace 10 The temperature of the inside of the heating furnace 10 can be raised at a higher efficiency through the high temperature heat generated in the crucible 110 of the heating furnace 10 through the heating furnace 10, It is possible to use it in a system that requires electrolysis in the case of electrolysis, desalination of seawater, etc. Further, it can be used in a heating furnace utilizing a combination of solar energy and solar energy, or in a place where a desiccation or a heating system .

10; Heating furnace, 30; Solar heat collector.

Claims (7)

A crucible having an inlet at an upper portion thereof and a heat absorbing plate at a lower center thereof, a heater portion disposed on a side surface of the crucible, a heat insulating portion provided on a lower portion and a side surface of the crucible excluding the heat absorbing plate, And an outer cover covering the heat insulating portion so that the heat absorbing plate is exposed downward;
A support frame for supporting the heating furnace at a predetermined height;
And a solar heat collecting part arranged on the lower side of the heating furnace and having a concave reflection plate for collecting and heating sunlight to a heat absorbing plate of the heating furnace.
The method according to claim 1,
Wherein the heater unit generates heat by a power source generated by the solar power generating unit.
The method according to claim 1,
And a concave and a convex is formed on a bottom surface of the heat absorbing plate.
The method according to claim 1,
And a transparent cover is provided at a lower center of the heating furnace so as to be positioned in a lower direction of the heat absorbing plate.
The method according to claim 1,
An angle adjusting unit for adjusting an angle of the solar heat collecting unit;
A sun position detecting unit for detecting the position of the sun;
And a control unit for controlling the angle adjusting unit according to the position of the sun detected by the sun position detecting unit to condense sunlight onto the heat absorbing plate.
6. The method of claim 5,
Wherein the reflector of the solar heat collecting part is formed of a plurality of reflectors divided by a predetermined angle,
And a plurality of reflection plates for rotating the reflection plates in different directions so that the sunlight is not condensed into one place.
The method according to claim 6,
Wherein the plurality of the reflection plates are constituted by one side reflector and the other side reflector,
The reflector rotating member includes a reflector support frame having a lower portion of the one side reflector and a lower portion of the other side reflector axially coupled to one upper side and the other upper side;
One side link member and the other side link member, the top side being axially coupled to the other side of the one side reflector and one side of the other side reflector;
A first movable body and a second movable body axially coupled to the lower portion of the one link member and the lower portion of the other link member, respectively;
The one side moving body and the other side moving body are rotated in a state where they are respectively screwed to one side of the center portion and the other side of the center portion so that one side of the one side side reflector and one side of the other side reflector are gradually spaced apart, A bidirectional lead screw for moving the one side of the one side reflector and the other side of the other side reflector to one direction of the one side of the one side reflector and the other side of the other side of the other side reflector;
And a driving member for rotating the bi-directional lead screw.

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