KR910001131Y1 - Double tube for underfloor heating - Google Patents

Abstract

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Description

Double Hot Water Pipe for Ondol Heating

1 is a perspective view of the present invention.

2 is a side view of a part of the present invention.

3 is a cross-sectional view of the construction of the present invention.

* Explanation of symbols for main parts of the drawings

1: hot water pipe 2: heat radiating pipe

3,3 ′: side plate 4: heat conductive medium

The present invention is a hot water pipe constructed in the ondol room, the hot water pipe is formed in the inner space of the heat dissipation pipe which is formed by double coupling to penetrate through the left and right both ends of the bottom side of the hollow heat dissipation pipe of the inverted triangle and vacuum Sealed by inserting a known heat conducting medium that repeats the evaporation and condensation action according to the temperature, the heat conducting medium absorbing the heat radiated from the hot water pipe is concentrated heat dissipation in the ceiling of the upper surface of the heat dissipation tube to heat loss to the bottom of the floor The present invention relates to a double hot water pipe for ondol heating that prevents the heating efficiency of the hot water pipe from being increased.

Since the hot water pipes installed on the floor are radiated in all directions from the entire main surface of the hot water pipe, the amount of heat radiated to the surface of the floor is relatively small compared to the amount of heat radiated to the other side or the bottom and the heat utilization rate for heating is not high. There was this.

The present invention is a heating hot water pipe installed on the floor in order to correct this problem in the prior art, the lower left and right side plates of the lower side of the heat dissipation tube made of hollow cylinder of the inverted triangle through the double hot water pipe to form a double to form a vacuum Inside the space of the heat dissipation tube, only one kind of a known heat conducting medium composed of ammonium chloride, SR-100L, SR-100M (trade name of Isu Chemical Co., Ltd.), or a mixture of chromium oxide and phosphate composition is used. If the insulation is put on the inclined surface of the heat dissipating pipe and the floor is installed on the floor, the hot water from the boiler is supplied to the hot water pipe, and the heat conducting medium absorbs the heat by the heat dissipated from the hot water pipe, and vaporizes it, then dissipates it. It releases the heat absorbed by condensation from the ceiling of the upper surface of the pipe and concentrates the heat to the upper surface of the heat radiating tube to improve the heat utilization rate of the hot water pipe for heating. It can be raised and the inclined surface of the heat dissipation tube acts as a sucker that flows when the condensed heat medium concentrates downward, so that the heat dissipation is less on the inclined surface, and heat is prevented from being lost by the heat insulator. Or it becomes much easier to apply a temperature change to the ondol at a temperature below a certain temperature, so that the ondol room can be heated more conveniently and more economically than the conventional single hot water pipe.

In the hot water pipe installed on the floor, the hot water pipe (1) is double-bonded to the left and right end side plates (3) (3 ') of the lower part of the heat dissipating pipe (2) formed of a hollow cylinder of an inverted triangle, and doubled to form a vacuum. In the inner space 2 'of the heat dissipation tube 2 held by the conventional heat conductive medium 4, for example, ammonium chloride, SR-100L, SR-100M (trade name of Isu Chemical Co., Ltd.), or CrO ₃ + H ₂ It is made by taking one of several kinds of known heat conducting media composed of PO ₄ + H ₂ O and sealing it in the range of 5-25% of the volume inside the space (2 ′) of the heat dissipating tube (2). In order to prevent heat from dissipating to the inclined surfaces 2b and 2c, the heat insulating material is in close contact with the inclined surface to fill the rest of the inverted triangular structure of the rectangular cross section as shown in FIG.

In the drawings, reference numerals 1 'and 1 " indicate pipe joints 2a of the hot water pipes, and upper surfaces of the heat dissipating pipes.

In this way, the present invention is disposed on the floor at an appropriate interval so that the upper surface (2a) of the heat dissipation tube (2) upwards, so that the hot water of the boiler can be passed through the both ends of the hot water pipe (1 ') ( 1 ″) are constructed by cement mortar or the like to be connected to each other, and when the hot water heated by the boiler is supplied to the hot water pipe 1 and circulated, the inside of the space of the heat dissipating pipe 2 is discharged by the heat radiated from the hot water pipe. Heat absorbing medium (4 ') absorbs heat and vaporizes to increase the pressure inside the space of the heat dissipating pipe (2), and the elevated heat conductive medium (4) is formed on the upper surface (2a) of the heat dissipating pipe (2). The heat is transferred to the upper surface 2a of the heat dissipation tube 2 by heat dissipation while condensing at the ceiling of the inner space 2 ', and the heat is condensed at the ceiling of the inner space 2' of the heat dissipation tube 2 The heat conducting medium 4 falls downward as it is, or along the left and right comb surfaces 2b and 2c of the heat dissipating pipe 2, The heat conducting medium 4 connected to and connected to the heat conduction medium is repeatedly vaporized and condensed so as to be vaporized again by heat of the hot water pipe 1 to radiate heat to the upper surface of the heat pipe 2, thereby dissipating heat from the hot water pipe. The main surface of (2) is heated by intensive heat dissipation, and the known hot water pipe is double-bonded in the inside of the heat dissipation tube of the inverted triangle, and vaporized condensation according to the temperature in the space of the heat dissipation tube maintained in vacuum. Since the heat transfer medium is sealed by inserting a conventional heat conducting medium, the heat dissipated in the hot water pipe can be transferred to the top surface of the large area of the heat dissipation pipe by the heat conducting medium. When used, the closed end can be corrected and all heat radiated from the hot water pipe can be transferred to the upper surface of the heat radiating pipe by the heat conducting medium to radiate heat. The heat utilization rate of the Korean hot water pipe is further improved, and the heat dissipation pipe is formed in an inverted triangle, so that the heat sink of the heat dissipation pipe serves as a flowing absorber of the condensed heat conducting medium. The adhesive heat insulation is effective in heating the ondol room more economically while preventing the hot water heat of the heat dissipation tube from being lost to the side of the floor below.

Claims (1)

In the hot water pipe constructed on the floor, the hot water pipe (1) is double-bonded to the left and right end side plates (3) (3 ') of the heat dissipating pipe (2) made of a hollow cylinder of an inverted triangle and doubled to form a vacuum. In the space 2 'of the heat dissipation tube 2, a normal heat conducting medium which repeats condensation according to a temperature such as ammonium chloride is sealed in a range of 5-25% of the volume of the heat dissipation tube. The inclined surface (2b) (2c) is a double hot water pipe for ondol heating to prevent the release of heat by the heat insulating material.