KR100702256B1 - Radiant heat plumbing forming one unit with a heat conduction printing - Google Patents

Abstract

The present invention relates to a heat dissipation pipe incorporating a heat conduction plate, and an object thereof is to integrally integrate a heat conduction plate capable of improving heat transfer to the upper flooring side through a simultaneous heat dissipation pipe providing ease of installation and maintenance after construction. To provide a shape of the heat dissipation pipe and the installation structure accordingly.

In the present invention, in the dry piping to heat the floor to the upper floor through the heat dissipation pipe installed on the concrete slab surface planar installation means for heating the floor, the heat dissipation pipe installed on the upper surface of the support means,

The support means is formed in the upper side to the straight portion and the curved portion extending in the longitudinal direction to form an installation groove in which the heat radiation pipe is seated; The heat dissipation pipe is integrally formed with a plate-shaped heat conduction plate having a width wider than the width of the main pipe portion on both sides of the main pipe portion, the outer circumferential surface is inserted and seated in the installation groove of the support means; The technical gist of the present invention relates to a heat dissipation pipe incorporating a heat conduction plate having improved heat transfer to an upper floor ash side.

Heat dissipation pipe, heat conduction plate, panel, galvanized plate, support means

Description

Radiant heat plumbing forming one unit with a heat conduction printing}             

1 is an exemplary cross-sectional view of the heat dissipation pipe is installed according to the present invention

2A and 2B are a perspective view and a cross-sectional view of the heat dissipation pipe shown as the first embodiment according to the present invention;

Figure 3a is a perspective view of a heat dissipation pipe shown as a second embodiment according to the present invention

Figure 3b is a state diagram when installing the heat dissipation pipe according to the second embodiment of the present invention

Figure 4 is an illustration of a support means coupled to a plurality of panels is installed heat dissipation pipe according to the invention

5 is an exemplary view showing one panel constituting the support means;

6 is a perspective view of a heat dissipation pipe shown as a third embodiment according to the present invention;

Figure 7 is an exemplary view showing the binding of the straight and curved heat dissipation pipe according to the fourth embodiment according to the present invention

<Description of the symbols for the main parts of the drawings>

(11): slab (12): flooring

(30): support means (30a): installation groove

(31): panel (31 '): straight panel

(31 "): curved panel (31a): locking projection

(31b): Hanging grooves 50, 50 ', 50 ", 51: Heat dissipation piping

(50a), (51a): heat conduction plate (50b), (51b): main piping

(52): Straight heat dissipation pipe (53): Curved heat dissipation pipe

(54): connection union (54a): fall prevention jaw

(55): metal plate 56: perforated lines

The present invention relates to a heat dissipation pipe incorporating a heat conduction plate, and more particularly, a heat conduction plate having improved heat transfer to facilitate installation work through a heating pipe made of synthetic resin having improved flexibility and conductivity, and a panel coupled thereto. It relates to a heat dissipation pipe integrally.

Generally, pipes using copper pipes, which are used for indoor heating, have a high heating effect, but the production and construction costs are expensive, and because they are not flexible, they are not bent at the corners of the floor and therefore cannot be installed separately. The hassle of having to perform welding has arisen.

On the other hand, hot water pipes made of synthetic resin pipes are cheaper and more flexible than hot water pipes of metals, and are widely used because of their good construction and economic efficiency, but still have problems in terms of thermal efficiency and durability compared to metals. Had.

On the other hand, the construction of the hot water pipes as described above, after installing the pipe on the floor of a certain space for heating purposes, the aggregates and cement is installed and installed, and then again to construct cement mortar or flooring materials such as plates or sheets, In this case, the installation construction is long, and when the pipe is to be replaced, it is difficult to remove the concrete structure of the entire floor.

The present invention is devised to solve the conventional problems as described above, the object of which is to improve the heat transfer rate upward of the heat dissipation pipe composed of an extruded synthetic resin excellent in flexibility or aluminum material with excellent heat transfer. The heat dissipation pipe is installed and a plurality of panels having a predetermined area can be combined in a planar manner, to provide a dry heat dissipation pipe that improves the simultaneous heat transfer to provide ease of installation and maintenance after construction.

In the present invention to achieve the object as described above and to perform the problem for removing the conventional defects in the dry heat dissipation pipe installed in the support water unit consisting of a heat insulating material to heat transfer to the upper floor material,

The support means is formed in the upper side to the straight portion and the curved portion extending in the longitudinal direction to form an installation groove in which the heat radiation pipe is seated; The heat dissipation pipe is formed of a soft synthetic resin, the main pipe portion is the outer peripheral surface is inserted and seated in the installation groove of the support means, and extends on both sides around the outer peripheral side of the upper surface of the main pipe portion, the upper surface is wider than the diameter width of the main pipe portion The plate-shaped heat conduction plate having a structure is formed integrally; It is characterized by improving heat transfer to the upper flooring side.

In addition, the heat conduction plate of the heat dissipation pipe is formed by the lattice cut line, when the heat dissipation pipe is extended to the installation groove of the straight portion of the support means to cut the heat conduction plate of the heat dissipation pipe when seated in the installation groove of the curved portion, the heat dissipation pipe It is characterized by improved flexibility.

In addition, the heat conduction plate formed in the heat dissipation pipe is characterized in that it contains a metal plate with high thermal conductivity.

In addition, the heat dissipation pipe is composed of a straight and curved heat dissipation pipe formed of a rigid synthetic resin, the linear heat dissipation pipe is seated in the installation groove of the straight portion formed in the support means, the curved heat dissipation pipe is seated in the installation groove of the curved portion However, both ends of the straight heat dissipation pipe and the curved heat dissipation pipe is characterized in that the coupling is configured by the connection union.

In addition, the heat dissipation pipe is characterized in that composed of aluminum.

In addition, the support means is characterized in that the plurality of panels formed with a plurality of locking projections and locking grooves corresponding to each other along the outer periphery is configured in a planar combination.

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

1 is a cross-sectional view of the installation using the heat dissipation pipe according to the first embodiment according to the present invention, Figures 2a and 2b is a heat dissipation pipe according to the first embodiment,

In order to heat the floor to install the support means 30 of the insulating material on the surface of the concrete slab (11) planarly, the upper floor material 12 through the heat dissipation pipe 50 is installed on the support means (30) In constructing a dry heating pipe to achieve heat transfer,

The support means 30 is configured to form an installation groove (30a) in which the heat radiation pipe 50 is seated on the upper side,

The main pipe portion 50b into which the outer circumferential surface is inserted and seated in the installation groove 30a forms the same material as the main pipe portion 50b, and has a predetermined width on both sides about the outer peripheral side of the upper surface of the main pipe portion 50b. The plate-shaped heat conduction plate 50a forms the heat dissipation pipe 50 integrally formed with the main pipe part 50b.

The heat conduction plate 50a formed on the heat dissipation pipe 50 has a width wider than the width of the diameter formed by the main pipe part 50b, and the upper surface thereof is plate-shaped, so that the heat transfer is fast to the upper flooring material 12 in a large area. We will implement the rate.

Also, as shown in FIGS. 2A and 2B, the heat conduction plate 50a having a flat top surface is inclined from the main pipe portion 50b and is formed integrally with the heat dissipation pipe 50 ', and also the heat conduction plate 50a. ) Shows a heat dissipation pipe 50 "integrally formed with a plate shape having a predetermined thickness.

The installation groove 30a formed in the support means 30 seats the main pipe portion 50b and the heat conduction plate 50a of the heat dissipation pipe 50 of the synthetic resin, and the heat conduction of the upper surface of the support means 30 is actively conducted. It is located on the same plane as the upper surface of the plate (50a).

3a and 3b show an exemplary view according to a second embodiment of the heat dissipation pipe,

This is an installation groove 30a of a straight portion and a curved portion formed by the support means 30 by using a heat dissipation pipe 51 that is extruded into a soft synthetic resin stream and integrally forms the heat conducting plate 51a and the main pipe portion 51b. ) So that it can be seated.

That is, the flexible flexible heat dissipation pipe 51 has the main pipe part 51b and the heat conduction plate 51a integrally formed thereon, and the heat conduction plate 51a has a lattice cut line 56. .

It is installed in the installation groove (30a) to form a straight portion on the support means 30 using the heat dissipation pipe 51 of the soft synthetic resin molded in the longitudinal direction, the installation to form a curved portion of the support means 30 When the pipe needs flexibility as it reaches the groove 30a, the main pipe portion seated in the installation groove 30a of the curved portion is cut off by being cut along the cut line 56 formed in the heat conductive plate 51a. The flexibility of 51b is improved and provided in correspondence with the curved portion.

On the other hand, Figure 4 and Figure 5 shows another embodiment of the support means of the present invention,

The support means 30 constitutes a plurality of panels 31 formed with a locking protrusion 31a and a locking groove 31b corresponding to each other along the outer side thereof, and is coupled to each other in a planar manner.

The plurality of panels 31 are processed in a variety of forms according to the shape of the working space in which the pipe is constructed, in Figure 4 has an installation groove (30a) forming a straight portion with the support means 30 coupled to the rectangular space The support means 30 are shown coupled to each other by a curved panel 30 'having a straight panel 30' having an installation groove 30a which usually forms a curved portion located at an edge thereof.

By using a plurality of panels 31 as described above, it is easy to work part-by-part during installation and maintenance after construction.

Figure 6 shows a third embodiment of the heat dissipation pipe according to the present invention,

A metal plate 55 having excellent thermal conductivity is embedded inside the main pipe portion 50b and the thermal conductive plate 50a integrally formed therewith.

The metal plate 55 may be made of any galvanized plate, regardless of which material has excellent conductivity.

Figure 7 shows a fourth embodiment of the heat dissipation pipe according to the present invention,

It constitutes straight and curved heat dissipation pipes 52 and 53 according to being molded of rigid synthetic resins, and is mounted on the support means 30 which forms the installation grooves 30a of the straight and curved parts. Installation is made by.

That is, in order to heat the floor to install the support means 30 of the insulating material on the surface of the concrete slab 11 in a planar manner, and through the heat dissipation pipe 50 installed on the support means 30 the upper floor ( In constructing a dry heating pipe for heat transfer to 12),

The support means 30 is formed in the upper side to the straight portion and the curved portion is formed in the longitudinal direction to form an installation groove (30a) in which the heat radiation pipe 50 is seated,

The heat dissipation pipe 50 is composed of straight and curved heat dissipation pipes 52 and 53 formed of rigid synthetic resin, and the linear heat dissipation pipe 52 in the installation grooves 30a of the straight portion formed in the support means 30. Is seated, the curved heat dissipation pipe 53 is seated in the installation groove (30a) of the curved portion, the both ends of the linear heat dissipation pipe 52 and the curved heat dissipation pipe 53 is coupled by the connection union (54). The installation is configured.

In general, both ends of the connection union 54 having the anti-dropping jaw 54a are fitted into the main pipe part 50b of the straight and curved heat dissipating pipes 52 and 53, respectively. .

At this time, but the connection of the pipe joint using the connection union 54 of the general configuration as described above, it is possible to apply a screw-type connection union, etc., which is connected by the screw engagement according to the water pressure flowing through the main pipe in general.

In addition, the curved heat dissipation pipe that is installed by the linear heat dissipation pipe 52 and the connection union 54 formed of the flexible resin having low flexibility uses a soft synthetic resin pipe (not shown) composed of a general main pipe part. Of course, the installation groove (30a) of the curved portion of the support means 30 can be installed in the usual hot water pipe configuration.

In addition, the straight and curved heat dissipation pipes 52 and 53 constitute a heat dissipation pipe of the synthetic resin stream by the extrusion molding method, but this can be replaced by forming a heat dissipation pipe of a metal material including aluminum having excellent thermal conductivity. .

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention has the effect of improving the heat transfer to the upper flooring side through the simultaneous heat dissipation pipe that provides ease of installation and maintenance after construction.

Claims (6)

delete Support means for insulating material having an installation groove that the heat dissipation pipe in the longitudinal direction leads to the straight portion and the curved portion to the upper side, and is seated; It is installed on the support means to perform heat transfer to the bottom of the upper side, the main pipe portion is inserted into the outer peripheral surface of the mounting groove of the support means, and extends to both sides around the outer peripheral side of the upper surface of the main pipe portion of the upper surface is the diameter of the main pipe portion In a dry heat dissipation pipe of a flexible synthetic resin incorporating a plate-shaped heat conducting plate having a width larger than the width; The heat conduction plate of the heat dissipation pipe is formed with a lattice cut line, when the heat dissipation pipe extends to the installation groove of the straight portion of the support means and cuts the heat conduction plate of the heat dissipation pipe when it is seated in the installation groove of the curved portion, A heat dissipation pipe integrated with a heat conduction plate, characterized by improved properties. delete delete delete delete

Images