KR200319519Y1 - A air hypocaust structure for cooling and heating - Google Patents

Abstract

This design is cold in a residential place. Cold by warm airflow. An ondol structure capable of heating and improving thermal efficiency is an ondol structure in which a dome shape is continuously formed on a floor and a top plate is mounted on a dome of the panel.

In order to provide an air ondol which forms a hole at the tip of the dome of the panel and fixes the hole and the bottom, the hole and the top plate with rivets, and constitutes an ondol, thereby improving thermal conductivity.

Description

Cold. A air hypocaust structure for cooling and heating

This design is cold in a residential place. Cold by warm airflow. It relates to an ondol structure which is formed to be heated. More specifically, it is formed in the same shape by receiving a heat insulating material between each support and continuously repeating it in a dome shape with a support plate mounted on the floor, and a panel having a hole for riveting at each tip portion. (PANEL) and the first and second finishing materials disposed on the dome tip are fixed to the panel, the support plate and the floor to cool. The present invention relates to a structure of an air ondol, which is configured to allow the warm air to pass through a dome-shaped space, and the main part of the concave-convex panel used as an ondol in the "Air Ondol Cooling and Heating Installation Method" (Reg. No. 0309710) owned by the applicant The conduction rate is lowered by the amount of concrete poured in the part, and heat is conducted to the floor, thereby improving the heat loss significantly.

Ondol heating is generally a method of obtaining heat by directly conducting heat to the ondol, so there is a method of providing heat to a saddle field, a method of providing heat by a hot water pipe, and a method of providing heat by an electric heater. Since the heat is supplied to the atmosphere by the convection of heat generated after heat conduction to the ondol, the difference between the heat of the ondol and the heat of the atmosphere is remarkable, so it is not optimal for residential use. Since it is caused by heat, there is a risk of fire and it is difficult to provide uniform heat to the ondol.The heat provided by hot water requires a pipe for transporting hot water and the pipe is disposed inside the ondol. Is not only complicated, but also has a big problem due to leakage, and the cost of discharging the electric heater to the ondol. This is large and electricity is disconnected regardless of the user's will, there is a problem that can not predict the occurrence of the event.

This design is cold. The panel is formed by repeating the dome shape continuously on the support plate of the standard which constitutes the passage through which the heating air flows.The upper plate and the panel, the panel and the support plate are fixed with rivets and cooled in the space of the dome by mounting the upper plate on the dome. It is an ondol structure that maintains the same temperature for a long time by the heat of the airtight space after the airflow passes by increasing the temperature of the airtight space of the portion where the airflow does not pass while the hot air flows. The purpose is to provide an ondol which is configured to conduction in the direction of the top plate.

It is desirable to minimize the area of the support plate and the area to be supported, and even the unsupported part may be finished with insulation to increase the effect of insulation.

The support plate and the top plate are in principle standardized but can be configured to be installed in connection. The space consisting of an ondol is divided into a space through which air flow passes and an enclosed space. The heat of the space through which air flow passes provides heat to the closed space to increase the temperature of the sealed space.

1 is an overall view of a panel.

Figure 2 is a state of use of the present invention.

Figure 3 is a cross-sectional view of the use state of the present invention.

4 is an exploded view of the present invention.

Explanation of symbols on the main parts of the drawings

11: panel 12: dome

13: top plate 14: support plate

15: first finishing material 16: second finishing material

17: support 18: fixed bend

19: first finishing jaw 21: insulation

22: support jaw 23: upper plate curved portion

24: panel projection 25: rivet

26: hole 27: support plate bending portion

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and embodiments.

According to the present invention, the dome 12 is formed in a longitudinal direction at regular intervals, and the support plate 14 and the dome supporting the panel 11 and the dome 11 are formed in the shape of a dome 12 having the same shape by repeating continuously. The top plate 13 mounted on the tip of the 12 is fixed to each other by the rivet 25 and releases the rivet 25 so that the panel 11 and the support plate 14 and the top plate 13 are separated. There are features that are constructed.

As shown in FIG. 2, the support plate 17 is formed on the bottom surface of the support plate 14 at regular intervals, and a heat insulating material 21 is attached between the support base 17 and the support base 17.

Two sides of the edge of the support plate 14 is formed with a jaw 22 bent in the upward direction.

As shown in FIG. 3, the panel 11 is integrally formed in a continuous shape such as the dome 12, and the tip portion of the dome 12 and the curved portion 27 between the dome 12 and the dome 12 are formed on the panel 11. Holes 26 for using the rivets 25 are drilled at regular intervals.

In addition, a panel protrusion 24 is formed at the edge of the dome 12 of the panel 11 in contact with the jaw 22 of the support plate 14. Except for the both ends in the longitudinal direction of the dome 12, the top plate 13 which surrounds the panel 11 has a hole 26 coinciding with the hole 26 formed in the panel 11 as shown in FIG. And a fixed curved portion 18 is formed to protrude the fixed material 15 at regular intervals, and two edges of the upper plate 13 are curved to the protrusions 24 of the panel 11. 23 is formed in the shape as shown in FIG. 3 to be in contact with the protrusion 24 of the panel 11. On the upper plate 13, the first finishing material 15 is fixed to the fixed curved portion 18 of the upper plate 13, and the second finishing material 16 is disposed on the first finishing material 15, thereby completing the ondol.

In an embodiment,

This design is cold. It is an ondol structure for providing heat with warm airflow.

In summer, it provides cold air to the floor and the atmosphere to circulate and circulates, and in winter, it provides warm air to heat and circulate the floor and the atmosphere, thereby maintaining the same temperature.

That is, in the case of cold wind, there is no big difference in the use of temperature because cold air circulates down, but in the case of ondol, the method of heating only the bottom to obtain heat has a big difference in the temperature of the lower and upper parts of the atmosphere because the heat moves upward. There is a problem with lifestyle and physiological benefits.

The present invention is to improve this.

Insulating material 21 having a thickness equal to the height of the curved portion 27 is fixed to the inside of the curved portion 27 of the bulbous support plate in the bottom direction with a constant length, and the support portions 17 are disposed at regular intervals, such that the curved portion 27 It is formed in the same length. It is preferable to use the end of the support 17 fixed to the floor.

The support plate 14 to which the heat insulator 21 is attached arranges the support plate 14 at the bottom such that the heat insulator 21 is in contact with the floor. The panel 11 is arrange | positioned on the support plate 14 arrange | positioned at the bottom.

When the panel 11 is disposed on the support plate 14, the protrusions 24 of the panel are seated inside the jaw 22 of the support plate.

When the panel 11 is seated on the support plate 14, the panel 11 and the support plate 14 are fixed by the rivet 25.

The top plate 13 is laid on the panel 11. Since both ends of the panel 11 have no protrusions and do not have jaws of the support plate, when the upper plate 13 is closed, the curved portion 23 of the upper plate should be positioned below the protrusions 24 of the panel 11. ) So that the curved portion 23 of the upper plate 13 is fitted under the panel 11 at one side of the panel 11 and pushed away.

When the upper plate 13 is flush with the panel 11, the hole 26 formed in the fixed curved portion 18 of the upper plate 13 and the hole 26 formed in the dome 12 are fixed by the rivet 25. When the top plate 13 is fixed to the panel 11, the first finishing material 15 is disposed at the same height as the fixed curved portion 18, and the second finishing material 16 is disposed on the first finishing material 15 to complete the ondol. .

When the ondol is completed as described above, a space is formed inside the dome 12 and an outer side surface of the dome 12.

Since the ondol according to the present invention is provided with heat only through the passage of air, the management after construction is extremely unlikely to be repaired permanently, and since all materials constituting the ondol can be assembled and configured, all weather construction is possible. It can handle the construction by personnel, and it is composed of almost space between the supporting plate and the upper plate, and the heat insulating material is arranged under the supporting plate so that the conduction of heat is conducted in the upward direction, so that there is almost no heat loss. It can be greatly improved and it is easy to manage after construction.

Claims (4)

Cold. In an air ondol structure configured to obtain heat by passing hot air through ondol, a support plate and a curved part are formed at a bottom part, and a jaw is formed at both edges, and a dome is formed in the direction along the length of the support plate perforated at regular intervals. It is formed continuously in one piece, and contacts the entire dome and the panel where holes are perforated at the tip of the dome and the connection part of the dome, and projections are formed at both edges, and both edges are bent so that the ends are curved and the upper part is formed. And a fixed curved portion is formed at regular intervals, and the upper plate having a hole formed in the fixed curved portion, and the first finishing material and the second finishing material being swept on the upper plate. Hot air ondol structure. The method of claim 1, wherein the bottom of the support plate is insulated, the projection of the panel is seated inside the support jaw of the support plate and the panel and the support plate is fixed by rivets. Hot air ondol structure. The cold plate according to claim 1, wherein the upper plate is fixed by using a rivet in the hole formed in the fixed curved portion formed on the upper plate and the hole formed in the dome tip of the panel. Hot air ondol structure. The cold according to claim 1, wherein the first finishing material is configured to be fixed to the fixed curved portion of the upper plate. Hot air ondol structure.