KR101229741B1 - Maufacturing Method of heating wood bed having heatpipe - Google Patents

Abstract

The present invention is the cover plate 170 which is placed on the upper portion of the bed frame 110, the heat pipe for heating the cover plate 170, the heat pipe 150 does not generate electromagnetic waves, and is generated in the heat pipe In manufacturing a heated bed using ocher as a medium for transferring heat, filling the inside of the bed frame 110, but filling the inclined obliquely to form a lower loess layer 130, the obliquely filled Placing a wire mesh 140 on the lower ocher layer 130, arranging the heat pipes 150 on the wire mesh 140 at predetermined intervals, and binding the wire pipes 140 with a binding strap 141. Forming an upper ocher layer 160 having a horizontal surface by inclining the ocher in an opposite direction to the lower ocher layer 130 again on the pipe 150, and covering the cover plate 170 on the upper ocher layer 160. Finishing To provide a method for manufacturing a heated bed with a built-in heat pipe, characterized in that the step is made, the present invention enables the use of a light wood plate in addition to the stone plate and ocher plate cover plate, and heat source It is used as a heat pipe, but considering the characteristics of the heat pipe is a very useful invention that enables the installation of the heat pipe with the simplest structure and at the same time effective heat generation.

Description

Manufacturing method of heating wood bed having heatpipe

The present invention relates to a method for manufacturing a heated bed with a built-in heat pipe, and more particularly, filling the loess inside the bed frame and heating the loess with a heat pipe to generate far-infrared rays and to heat at the same time. It relates to a method of manufacturing a heated bed with a built-in heat pipe that can improve the.

In general, Koreans are familiar with the ondol culture, preferring the floor to the bed, and in winter, they prefer warm spheres.

For this purpose, recently, a heater is built into the bed, and an ondol bed having both advantages of ondol and bed is used.

However, such an ondol bed usually heats the cover plate by a heating means such as a heating wire, and the cover plate generally uses a stone plate such as marble or an ocher plate made by compressing ocher powder.

However, when using the stone plate and ocher plate as described above is too heavy and high risk of being damaged by the impact, and the use of hot wire has a disadvantage that is very harmful to the human body by radiating a large amount of electromagnetic waves.

In addition, the hot wire is made of a metal wire having high resistance, so that durability is not good, so it has a disadvantage of frequent failure and lifespan due to frequent disconnection.

In particular, when the cover plate is to be used as a light and impact resistant wood, heating method by heating wire is not easy to raise the temperature to a certain temperature due to the risk of fire and the characteristics of the wood with low thermal conductivity.

Therefore, the present invention enables the cover plate to be used as wood, and heat transfer is good without the risk of fire in heating the cover plate made of wood, so that the heat can be transmitted quickly, and electromagnetic waves are not generated. There is a purpose.

To this end, the present invention uses a heat pipe that does not generate electromagnetic waves as a heat source for heating the cover plate, and using ocher as a heat conducting member for transferring heat generated from the heat pipe, due to the working fluid vaporized In view of the characteristics of the heat pipe to be installed to fill the interior of the bed frame to the loess filled with oblique to form a lower loess layer, the step of placing a wire mesh on the sloped lower loess layer, heat pipe on the wire mesh Arranging at a predetermined interval and binding with a tie strap, forming an upper ocher layer having an inclined loess on the heat pipe on which the arrangement is completed, and forming an upper ocher layer having a horizontal surface, and covering and covering a cover plate on the upper ocher layer Built-in heat pipe, characterized in that To provide a method for manufacturing a thermal bed.

The present invention enables the use of a light wood plate in addition to the stone plate and the ocher plate, and using a heat source as a heat pipe, but in consideration of the characteristics of the heat pipe to enable the installation of the heat pipe in the simplest structure and At the same time, it has the effect of enabling effective heat generation.

In addition, the present invention by using ocher as a heat conduction member for heat transfer of heat pipes prevents fires from being directly heated by the heat source to prevent the fire and at the same time as a quick heat transfer as well as the generation of electromagnetic waves almost no human body It is a very useful invention that is very helpful for promoting health by emitting far infrared rays of ocher without being harmful.

1 is an exploded perspective view of the present invention.
Figure 2 is a perspective view of the combined state of the present invention.
Figure 3 is a longitudinal cross-sectional view of the present invention.

Hereinafter, a method of manufacturing a heated bed incorporating a heat pipe according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is the cover plate 170 which is placed on the upper portion of the bed frame 110, the heat pipe for heating the cover plate 170, the heat pipe 150 does not generate electromagnetic waves, and is generated in the heat pipe In manufacturing a heated bed using loess as a medium for transferring heat,

Filling the inside of the bed frame 110, but filled with obliquely to form a lower loess layer 130, and placing a wire mesh 140 on the obliquely filled lower ocher layer 130, and the wire mesh Arranging the heat pipes 150 at predetermined intervals on the 140 and binding to the binding straps 141, and inclining the ocher in the opposite direction to the lower loess layer 130 again on the heat pipes 150 in which the arrangement is completed. Forming an upper ocher layer 160 having a horizontal surface, and covering and covering the cover plate 170 on the upper ocher layer 160.

In this case, the lower loess layer 130 is inclined because the working fluid circulating in the sealed space inside the heat pipe 150 repeatedly heats the liquid-gas by the heating of the heater 151 to generate heat. This is because the heat pipe 150 must be inclined downward toward the heater 151 so as to repeat the liquid-gas phase change mechanism.

Heat pipe, as is well known, is a device that transfers heat by using latent heat as a device that transfers heat between the ends of a vessel through the phase change process between gas and liquid. It is also known as heat pipe, heat pipe, or super conductivity, as it exhibits much greater heat transfer performance compared to conventional heat transfer equipment using a phase fluid.

Therefore, the heat pipe exhibits a very large heat transfer performance compared to a conventional heat transfer device, and exhibits heat conduction performance equivalent to hundreds of times of silver or copper, which is known as a high quality heat conductor, and is known as the most thermally conductive device among the currently known materials.

The heater 151 is provided with a temperature controller 152 for supplying power and controlling the temperature.

The wire mesh 140 is fabricated in a net form by orthogonally interposing a plurality of wire rods and electrically welding them.

Eventually, the wire mesh 140 placed on the inclined lower ocher layer 130 is also inclined. The heat pipes 150 are arranged at predetermined intervals on the wire mesh 140 and are bound by the binding straps 141. . At this time, the interval of the heat pipe 150 is preferably an interval of 10 ~ 30cm.

As such, the heat pipe 150 bound by the binding string 141 and fixed to the wire mesh 140 maintains a solid binding state. In this case, the heater 151 is provided at the end of the heat pipe 150 located at the lower side. Coupled to heat the heat pipe 150.

The top of the heat pipe 150 is completed is filled with ocher again to form an upper ocher layer 160, the upper ocher layer 160 is to be finished by placing a horizontal cover plate 170 on the lower ocher layer inclined in the end On the 130, the wire mesh 140, and the heat pipe 150, the upper ocher layer 160 should be formed by filling ocher in the opposite direction to the inclined direction of the lower ocher layer 130.

As a material of the cover plate 170, a stone plate or an ocher plate may be used, but it is more preferable to use a wood material in consideration of the weight and price of the bed. The wood may be used as a variety of wood, such as pine, cedar, it is preferable to use a cypress wood with excellent antimicrobial activity and forest bath effect by phytoncide.

The ocher used as the heat transfer member is a mineral composed of 40 to 80% quartz, 10 to 20% feldspar and mica, 5 to 35% carbonate mineral, 2 to 4% silt, and the chemical composition is 50 to 60 silica. %, Alumina 8-12%, trivalent iron oxide 2-4%, divalent iron oxide 0.8-1.1%, calcium oxide 4-16%, magnesium oxide 2-6%, about 0.5% titanium oxide It is composed of manganese oxide, and in particular, ocher contains various inorganic substances and enzymes, so it has a function as a bioactive material, has excellent humidity control ability, and can emit far infrared rays, which is a very useful material. In the present invention, although ocher is used, any kind of mineral powder capable of emitting far infrared rays may be used.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the above, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention. Belongs to the scope of.

110: bed frame 120: heat reflection insulation plate
130: lower loess 140: wire mesh
141: Binding
150: heat pipe 151: heater
152: temperature controller 160: upper ocher layer
170: Cover plate

Claims (2)

The cover plate 170 mounted on the upper part of the bed frame 110 and the heat pipe 150 for heating the cover plate 170 transmits heat generated by the electromagnetic wave and heat generated by the heat pipe. In manufacturing a heated bed using ocher as a medium to
Filling the inside of the bed frame 110, but filled with obliquely to form a lower loess layer 130, and placing a wire mesh 140 on the obliquely filled lower ocher layer 130, and the wire mesh Arranging the heat pipes 150 at predetermined intervals on the 140 and binding to the binding straps 141, and inclining the ocher in the opposite direction to the lower loess layer 130 again on the heat pipes 150 in which the arrangement is completed. Forming the upper ocher layer 160 fills the surface is horizontal, and covering the cover plate 170 on the upper ocher layer 160 and finishing the manufacturing of a heated bed with a built-in heat pipe Way.
The method according to claim 1, wherein the cover plate 170 is a method of manufacturing a heated bed with a built-in heat pipe, characterized in that using cypress wood.

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