KR200198636Y1 - Radiator - Google Patents

Abstract

The object of the present invention is to construct a radiator for building installation, which is prefabricated outside the heat pipe and is provided with a heat dissipation tube that is in direct contact with the heat pipe by heat conduction.

The present invention is to complete the radiator body by covering the heat pipe in two parts to be in direct contact with the heat pipe, fixing the contact state with the cleats on both sides, combining the device bracket of the whole equipment at the bottom and installing the carver at the top. .

Description

Radiator for building installation

The present invention is a radiator for building installation, more specifically, a radiator in which a heat radiating pipe is coupled to a heat pipe, and is a utility bill of Utility Model No. 67497 (Notice No. 92-2387) registered and registered by the inventor.

The basic design is to construct various heating and drying radiators installed in the building, and if a plurality of distribution pipes are connected to the main pipe and only a heat source is passed through the main pipe, the main pipe and the entire distribution pipe become heat pipes, and the heat is superconducting. It is a radiator that is diffused and dissipated by an outer heat dissipation tube.

As is well known, the principle of heat pipe is to put a heat medium of vacuum state, gas or special liquid inside the pipe and vacuum seal it with the outside, and once it is heated, it vaporizes instantly and diffuses into the pipe by the superconducting principle simultaneously. The heat pipe is connected to the heat pipe through the heat pipe through the heat source only inside the main pipe to form a whole heat pipe.

In general, the hot water or steam radiator has a configuration in which the heat source must be circulated through the radiator, which consumes a lot of circulation power. The inlet side is overheated and the outlet side is cooled, so the temperature distribution of the radiator is not constant. There was a drawback that the thermal efficiency is lowered as it is passed as it is.

In addition, heat pipes are difficult to construct a heat sink because of the difficulty of directly heating the ends of the heat pipes because of the small area of contact with the heat source.

And the basic design is that if the heat radiator of any pipeline passes through the main pipe and passes the heat source only through the main pipe, the whole becomes a heat pipe, and the heat radiating pipe is erected on the outside, and the heat is effectively filled by the lead between them, The latent heat function allows the heat dissipation time to be sustained.

However, the basic design has the following drawbacks.

That is, since lead must be filled between the heat pipe and the heat dissipation tube, it is very difficult to charge molten lead with high temperature heat.

In addition, in the state of finished products filled with lead, the weight is heavy, which causes damage to the main pipe and heat pipes of the lower part.

This invention considers all the faults which the said basic design has.

The object of the present invention is to construct a radiator for building installation, which is prefabricated outside the heat pipe and is provided with a heat dissipation tube that is in direct contact with the heat pipe by heat conduction.

The present invention is to complete the radiator body by covering the two parts of the heat pipe to be in direct contact with the heat pipe, to position the contact state by clicking on both sides, to combine the device bracket of the entire equipment at the bottom and to install the carver at the top Has been disclosed.

1 is a schematic structural view of the present invention.

2 is a structural perspective view of a unit heat dissipation tube used in the present invention.

3 is a plan view of the second assembly.

4 is a main cross-sectional view illustrating the operation of the present invention.

* Explanation of symbols for main parts of the drawings

1: subjective 2: heat source

3,3 ': distribution pipe 4,4a: heat sink

5,5 ′: Coupling portion 6: upper cover

7,8: fastening hole 9: fastening means

10: bracket C: clip

P, P ′: Heat sink fin K, K ′: Stone

The heat source (2) penetrates the main pipe (1), and the distribution pipe (3) (3 ') is connected to the upper end of the main pipe (1) to heat the heat source (4) such as vacuum gas or distilled water or special liquid inside the main pipe (1). In the heat pipe element which is directly in contact with (2), the heat dissipation pipes 4, 4a are placed vertically on the outside of each distribution pipe 3, 3 'and placed in close contact with each other. Are separated in the semicircle direction, and the heat radiation fins P (P ') are formed radially, and each heat sink fin (P) (P') is formed with a protrusion K (K ') and each heat radiation tube (4) (4a). On the coupling part 5 (5 ') of the "The fastening holes (7) (8) are formed by fastening the vertical clip (C) vertically" Extruded in a shape of ”and forming a separate bracket (10) to protect the above-mentioned main pipe (1) embedded therein, and to project the distribution pipe (3) (3 ') and the heat dissipation pipe (4) coupled to the outside Covering each heat pipe (4) (4a) as an upper cover (6) from the top of the (4a) and fixing the position as fastening holes (7) (8) normal fastening means (9) bracket (10), distribution pipe ( 3) 3 ', the heat dissipation tube 4, 4a and the top cover 6 are completed as radiators of a generally stable form.

The present invention is a heat pipe element, that is, the heat source (2) is inserted into the distribution pipe (3) (3 ') upright to the outside of the main pipe (1) fixed to the fixed position to cover the position and then each distribution pipe (3) The heat dissipation tube (4) (4a) separated in the semicircle direction outside the (3 ') is in close contact with the distribution tube (3) (3') to heat dissipate thermally, and from the top to the cover (6) The cover is to maintain aesthetic stability and form.

When the primary heating means such as electric heater hot water is supplied as the heat source 2, the present invention is a variety of heat medium, such as a vacuum formed in the main pipe (1) ascends and diffuses on the superconducting principle, and moves throughout the distribution pipe (3) (3 '). The heat is conducted to the heat-radiating tube (4) (4a) in direct contact and heat exchanged to the outside.

In addition, heat radiation fins (P) (P ') and fine vertical protrusions (K) (K') are formed in each of the heat dissipation pipes (4) (4a).

Therefore, the present invention has the most heat dissipation effect as the smallest heat source in the energy-saving era, that is, conducts heat dissipation without loss of recovery and adds physical convenience of assembling and maintenance, resulting in new useful effects that can be put into practical use in various buildings. It is a progressive design.

Claims (1)

The heat source (2) penetrates the main pipe (1), and the distribution pipe (3) (3 ') is connected to the upper end of the main pipe (1) to heat the heat source (4) such as vacuum gas or distilled water or special liquid inside the main pipe (1). The heat dissipation pipes 4 and 4a are semicircle in which the heat dissipation pipes 4 and 4a are placed vertically on the outside of each of the distribution pipes 3 and 3 'to be in direct contact with each other for thermal conduction. Direction, and radiating fins (P ') are formed radially, and each of the radiating fins (P) (P') is formed with a protrusion (K) (K '), and a coupling portion of each of the radiating tubes (4) (4a). (5) To (5 ') "The fastening holes (7) (8) are formed by inserting and clamping the vertical clip (C) vertically" To form a separate bracket (10) to protect the main pipe (1) as described above, to protrude the distribution pipe (3) (3 ') and to the heat dissipation pipe (4) (4a) A radiator for building installation, characterized in that the upper cover (6) in the upper portion is completed as a radiator of the overall stable form.