KR200387093Y1 - Piping structure of radiator - Google Patents

Abstract

The present invention relates to a piping structure of the radiator.

The present invention is a pipe structure of the radiator configured to interpose a plurality of heat dissipation pipes formed with a heat radiation fin between the lower branch pipe with a hot water inlet and the upper branch pipe with a hot water outlet, the lower branch pipe and the upper branch pipe Each of the hot water inlet and the hot water outlet is configured to be coupled to the housing tube having a connector embedded in the wall, the hot water inlet pipe is coupled to the connector, characterized in that the cover is coupled to the enclosure.

Therefore, the present invention dissipates the heat supplied from the boiler to heat the room and at the same time the hot water inlet and hot water discharge port is coupled to the enclosure having a connector with a connector embedded in the wall, so that the surrounding aesthetics look beautiful In addition, the installation space is to be minimized.

Description

Piping Structure of Radiator {PIPING STRUCTURE OF RADIATOR}

The present invention relates to a piping structure of a radiator, and in particular, a connection pipe to a housing having a connector in which a hot water inlet and a hot water outlet of a radiator are configured to heat a room by dissipating heat supplied from a boiler. By being combined with, the aesthetics of the surroundings look beautiful, and also to minimize the installation space.

In general, the heat radiator is installed in the room, the heat is dissipated by the numerous fins when the steam or high temperature hot water supplied from the boiler circulates inside the heat radiating tube to heat the room to be heated.

As shown in FIGS. 4 and 5, the radiator H is mainly equipped with a number of fins 32 on the outside of the heat dissipation pipes 30 vertically connected between the upper and lower branch pipes 10 and 20. In the configuration, and the heating water of the boiler introduced through the lower branch pipe 20 is circulated to the upper branch pipe 10 through the heat radiating pipe 30, the fins 32 mounted to the heat radiating pipe 30 The heat exchange is made by the heat of the heating water is dissipated to the room.

In addition, the lower branch pipe 20 is configured to be supplied through the hot water inlet pipe 44 is fixed to the wall surface of the lower portion through the bottom slab (S) and the clamp 40, the upper side One side of the branch pipe 10 is configured such that the hot water discharge pipe 50 having the valve 52 is circulated to the boiler not shown through the bottom slab (S).

Therefore, the hot water heated by the boiler is introduced into the radiator H through the hot water inlet pipe 44 and the lower branch pipe 20, and the introduced hot water is provided on the outside in the process of flowing the heat radiating pipe 30. The heat exchange is made by the fins 32, and the heated hot water is circulated continuously through the upper branch pipe 10, the valve 52, and the hot water discharge pipe 50 on the upper portion thereof, thereby maintaining the interior. I can heat it.

However, each of the hot water inlet pipe 44 and the hot water discharge pipe 50 coupled to the lower branch pipe 20 and the upper branch pipe 10 is exposed in the form inserted into the penetrating bottom slab S, At the same time, there was another problem that should secure a lot of installation space while inhibiting the aesthetics.

In order to solve such a problem, another embodiment as shown in FIG. 6 has been proposed, but this is also due to the relationship between the lower part of the radiator H, which increases the height of the radiator, and thus requires a lot of installation space. There was the same problem that was not in harmony with.

The present invention was devised to solve such a problem, and the hot water inlet and the hot water discharge port of the radiator configured to dissipate the heat supplied from the boiler to heat the room are coupled to the enclosure having a connector embedded in the wall. The purpose of the present invention is to provide a piping structure of the radiator that makes the surrounding aesthetics look beautiful and minimizes the installation space.

The present invention for achieving the above object in the pipe structure of the radiator configured to be interposed a plurality of heat dissipation tube is formed between the lower branch pipe with a hot water inlet and the upper branch pipe with a hot water outlet, the lower portion The hot water inlet 22 and the hot water outlet 12 of each of the engine 20 and the upper branch pipe 10 are coupled to the housing 60 having a connector 62 embedded in the wall. It is configured to be configured, so that the hot water inlet pipe 66 is coupled to the connector 26, characterized in that the cover 68 is coupled to the housing 600.

In addition, the connecting pipe 64 is characterized in that it is configured to be free to bend.

In addition, the inlet pipe 66 has an object to provide a piping structure of the radiator, characterized in that it has a double partition wall.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

The piping structure of the radiator according to the present invention, as shown in Figures 1 to 3, is composed of the upper branch pipe 10, the lower branch pipe 20, the heat dissipation pipe 30 and the housing 60.

Here, the upper branch pipe 10 has a hot water outlet 12 is formed on one side, the lower portion is configured to be coupled to the upper end of the heat dissipation pipe (30).

The lower branch pipe 20 has a hot water inlet 22 is formed on one side, the upper portion is configured to be coupled to the lower end of the heat dissipation pipe (30).

The heat dissipation tube 30 is configured such that a number of heat dissipation fins 32 are formed on the outside thereof to widen the contact area.

The connecting pipe 64 to the housing 60 having a connector 62 in which the hot water inlet 22 and the hot water outlet 12 provided in the lower branch pipe 20 and the upper branch pipe 10 are embedded in the wall. It is configured to be combined with). More preferably, the connecting pipe 64 is provided to be free of bending.

In addition, the hot water inlet pipe 66 is configured to be coupled to the connector 62, and the cover 68 is configured to be coupled to the enclosure 60. The hot water inlet pipe 66 is more preferably configured to have a double partition wall to reduce the heat loss.

The heat sink (H) having such a configuration, in the process of constructing the wall first, the hot water inflow pipe 66 having a double partition wall is buried in the bottom slab (S) and the wall of the enclosure 60 at its end Be buried together.

Next, in the case of constructing the radiator (H), after connecting the connector 62 to the hot water inlet pipe 66 exposed to the interior of the enclosure 60, respectively, coupled to the upper and lower branch pipes (10) (20) The hot water outlet 12 and the hot water inlet 22 is coupled to the connector 62, the installation is finished so that the cover 68 is interposed therebetween.

Therefore, the heating water of the boiler introduced into the lower branch pipe 20 through the hot water inlet pipe 66 and the connector 62 and the hot water inlet 22 is circulated to the upper branch pipe 10 through the heat dissipating pipe 30. The heat exchange is performed by a number of fins 32 mounted on the heat dissipation tube 30, thereby allowing the room to be heated.

As such, the present invention allows the hot water inlet and the hot water outlet of the radiator configured to dissipate heat supplied from the boiler to be coupled to the enclosure having a connector embedded in the wall, thereby beautifully surrounding the aesthetics. To make it visible and to minimize the installation space.

1 is a front view showing the piping structure of the radiator according to the present invention.

Figure 2 is a longitudinal cross-sectional view showing a piping structure of another heat sink according to the present invention.

Figure 3 is an exploded perspective view showing the piping structure of the radiator according to the present invention.

Figure 4 is a front view showing the piping structure of the radiator according to the prior art.

Figure 5 is a longitudinal sectional view showing a piping structure of a radiator according to the prior art.

Figure 6 is a longitudinal sectional view showing another installation structure of the heat sink according to the prior art.

<Brief description of symbols for the main parts of the drawings>

10: upper branch pipe 12: hot water outlet

20: lower branch pipe 22: hot water inlet

60: enclosure 62: connector

64: connector 66: inlet pipe

68: cover

Claims (3)

In the piping structure of the radiator configured such that a plurality of heat dissipation pipes having a heat dissipation fin is interposed between the lower branch pipe with the hot water inlet and the upper branch pipe with the hot water outlet, The connecting pipe 64 to the housing 60 having a connector 62 in which the hot water inlet 22 and the hot water outlet 12 provided in the lower branch pipe 20 and the upper branch pipe 10 are embedded in the wall. ) Is configured to be coupled to, the hot water inlet pipe (66) is coupled to the connector (26), the cover structure of the radiator, characterized in that the cover (68) is coupled to the enclosure (60). The method of claim 1, The connecting pipe (64) is a piping structure of the radiator, characterized in that consisting of free bending. The method of claim 1, The inlet pipe (66) is a piping structure of the heat sink, characterized in that configured to have a double partition wall.