KR20150070079A - Heating Pipes Installation Structure And Method for Making the same - Google Patents

Abstract

According to an embodiment of the present invention, the present invention comprises: a heating pipe; a floor formed on a heating mat or an upper part of the body of a heating floor; a ferrite insulation part laid on the lower part of the floor; a heating pipe accommodating part of which sectional part is the same as the shape of the insulation part such that the insulation part of the heating pipe in the ferrite insulation part can be combined of which an upper part is open; and a connection part which seals both ends of an even surfaced air flowing part in the heating pipe which connects a heating water container with a heating boiler wherein the heating pipe has a heating water flowing part connected vertically without edges on the sectional areas, a flat sensible heat part mounted on the heating water flowing part positioned in parallel with the floor, a curved sensible heat part extended to a lower part from the flat sensible heat part dividing the heating water flowing part, a sensible heat part with a wing-type sensible heat part extended from the flat sensible heat part, an even surfaced air flowing part covering an entire outer circumference of the curved sensible heat part, and an insulation part covering the entire outer circumference of the even surfaced air flowing part.

Description

TECHNICAL FIELD The present invention relates to a piping installation structure for a heating pipe,

More particularly, the present invention relates to a pipe installation structure for a heating pipe and, more particularly, to a heating pipe having a large heat transfer effect to a floor surface, The present invention relates to a pipe installation structure for a heating pipe having an excellent fitting workability and easy to manufacture, and a construction method thereof.

In general, a pipe or hose for a heating pipe which is supplied with heating water of a hot water boiler to heat the building is provided by extrusion molding with aluminum, stainless steel, copper, rubber and synthetic resin.

Since the pipe or hose for heating pipe is formed in a circular pipe shape, sensible heat is generated on the outer circumferential surface of pipe due to the hot water passing through the inside of the pipe, so that heat is applied to the floor of the Ondol, To be authenticated.

However, in the above pipe or hose, the whole heat of the hot water flowing inside is sensible to the outer peripheral surface of the pipe and can not be transmitted to the upper surface of the mat or the floor of the floor, and only a part of the heat sensible to the peripheral surface of the pipe There is a problem that a sufficient heat transfer effect can not be achieved.

In this case, since the hot water boiler or the like must be continuously operated or the set temperature is increased, there is a problem that energy consumption such as power waste is large and excessive heating cost is generated.

In order to solve this problem, according to the registered utility model No. 20-0259733, the outer surface of the hollow hose has a corrugated shape and the inner surface is formed as a flat circular shape, so that the corrugated portion of the hollow hose is improved in contact with the cement And the heat transfer effect by the fluid turbulence of the heated water supplied by increasing the heat transfer area of the corrugated portion is also increased.

However, even in this case, the entire heat of the hot water flowing into the hose can not be transmitted to the bottom surface due to the sensible heat in the corrugated portion, and the heat of the hot water is sensed across the entire circumference of the hollow hose, .

According to Korean Patent Laid-Open Publication No. 2012-0113371, which is presented as another solution for solving the problem, a hose for a heating pipe is provided which has a protruding portion formed on the outer surface of the hollow hose to increase the surface area thereof.

However, even in this case, the hot water heat inside the hose senses heat through the outer circumferential surface and the protruding portion of the hose, but there is also a problem that the heat is similarly generated from the bottom to the outside of the bottom surface.

Such a hose for heating piping is difficult to manufacture, and it is difficult to construct the hose for heating piping in a vortex shape on the floor surface, and the corrugated portion or the protruding portion is partially and densely overlapped to make the energy distribution uneven, There is a problem such as fire.

In addition, since it is necessary to cover the hose for heating piping and cover the floor with the concrete mortar in order to provide the bottom surface of the plate, the air takes a long time due to the curing time, and a lot of concrete mortar is needed.

Also, most of the hoses for heating piping do not have a connection with the external piping, which makes construction difficult.

[Patent Literature]

Korea registered utility model 0259733

Korea Patent Publication No. 2012-0113371

SUMMARY OF THE INVENTION The present invention has been made in order to solve such a problem, and it is an object of the present invention to provide a pipe for a heating pipe which is large in heat transfer effect to a floor surface, The present invention also provides a pipe installation structure for a heating pipe which is excellent in workability and is easy to manufacture, and a method of construction thereof.

The pipe structure for a heating pipe according to an embodiment of the present invention includes a rounded hot water passage space part formed so as to communicate in the longitudinal direction and having a section without an edge, A sensible heat part having a curved surface sensible heat part extending downward from the planar sensible heat part to define the hot water passage space part and a winged sensible heat part extending from the planar sensible heat part; Sectional shape of the air moving part to surround the entire outer circumferential part of the sensible heat part with a constant width and a heat insulating part to surround the entire outer circumferential part of the uniform sectional air moving part with a constant thickness; A bottom surface formed on the upper surface of the heating mat or the floor heating element body; A pearl insulating material laminated on the bottom of the bottom surface; A pipe accommodating portion for accommodating a pipe for a heating pipe which is opened upward in a cross-sectional shape corresponding to the shape of the heat insulating portion so that the heat insulating portion of the pipe for heating pipe formed in the perlite insulating material is fitted; And a connection port for sealing both end portions of the uniform cross-sectional-shape air moving portion in the longitudinal direction of the heating pipe and connecting the hose connecting the hot water passage space portion and the hot water boiler to the hot water boiler.

According to another aspect of the present invention, there is provided a method of constructing a piping installation structure for a heating pipe, comprising: laminating a pearlite insulation material on a bottom surface of an upper surface of a heating mat or a floor heating unit; Forming a receiving recess upwardly open to receive a pipe for a heating pipe; Disposing a planar type sensible heat part or a wing type sensible heat part of the heating pipe on the peripheral bottom surface of the receiving recessed part in the receiving recessed part; Connecting the hose connected to the hot water boiler to one end of the pipe for heating piping, the connecting pipe having a connecting port at both ends in the longitudinal direction of the pipe for heating piping installed in the receiving recessed portion; And bending coupling the hose and the pipe for the heating pipe with a bending type coupling coupling on a connection port of the hose.

According to the pipe installation structure for a heating pipe and the construction method thereof, when the hot water is supplied through the hot water supply hose of the hot water boiler, the hot water is directly supplied from the hot water passage space portion to the planar type sensible heat portion And the uniform cross-section air is guided along the curved-surface sensible heat portion having higher heat conduction efficiency than the eastern portion and is rapidly transferred to the planar sensible heat portion, and the uniform cross-sectional air around the hot- The heat can be transferred to the bottom surface of the Ondol mattress or the Ondol bottom body without heat loss since it is insulated by the heat insulating portion of the outer peripheral portion.

In addition, according to an embodiment of the present invention, the planar sensible heat portion integrally formed on the upper surface of the hot water passage space portion is extended to the wing-shaped sensible heat portion to provide a larger surface area and is rapidly diffused, , And energy saving effect can be obtained.

Further, according to an embodiment of the present invention, the pipe installation structure for a heating pipe is easily combined with the hot water boiler by a hose having a connection port through which the uniform cross-sectional air flow of the heating pipe is fitted.

Further, according to an embodiment of the present invention, it is only necessary to arrange the perimetric heat insulation material, which is crushed with pearlitic grains or powder of 0.5 mm or less and has no voids and densified, and the pipe for heating piping, Construction is very easy.

In addition, according to one embodiment of the present invention, since the pipe for the heating pipe does not have a large change in volume even when the temperature changes, and the corners have a rounded cross-sectional shape, It is easy.

1 is a sectional view of a pipe for a heating pipe according to an embodiment of the present invention;
2A is a perspective view of a pipe for a heating pipe according to a first modification of the embodiment of the present invention;
FIG. 2B is a cross-
FIG. 2C is a cross-
3A is a cross-sectional view of a pipe for a heating pipe according to a second modification of the embodiment of the present invention
3B is a cross-sectional view of a pipe for a heating pipe according to a second modification of the embodiment of the present invention
3C is a cross-sectional view of a pipe for a heating pipe according to a second modification of the embodiment of the present invention
4 is a flowchart illustrating a method of manufacturing a pipe for a heating pipe according to an embodiment of the present invention.
5 is a cross-sectional view showing the installation structure of a pipe for a heating pipe according to an embodiment of the present invention
6 is an exploded perspective view illustrating a hose connection construction effect of the installation structure of a pipe for a heating pipe according to an embodiment of the present invention.
7 is a plan view showing an installation structure of a pipe for a heating pipe according to an embodiment of the present invention.
8 is a flow chart illustrating a method of installing a heating pipe installation structure according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the same reference numerals are used for the same reference numerals, and in particular, the numerals of the tens and the digits of the digits, the digits of the tens, the digits of the digits and the alphabets are the same, Members referred to by reference numerals can be identified as members corresponding to these standards.

Referring to FIG. 1, a pipe 10 for a heating pipe according to an embodiment of the present invention includes a hot water passage space part 11 formed to communicate in the longitudinal direction and a hot water passage space part 11 formed integrally with the hot water passage space part 11 And a curved surface sensible heat portion 12b extending downward from the planar sensible heat portion 12a and partitioning the hot water passage space portion 11, (12), and a uniform cross-sectional shape moving unit (13) surrounding the entire outer circumferential portion of the curved surface sensible heat portion (12b) with a constant width.

The sectional shape of the hot water passage space portion 11 may be a rounded semicircle such that there is no edge as shown in (a), a rectangle rounded to have no edge as shown in (b), and an isosceles triangle rounded to have no edge as shown in (c) have.

Since the sectional shape of the hot water passage space portion 11 is formed into a semi-elliptical, rectangular, or isosceles triangle as described above, the planar sensible heat portion 12a can be provided broadly with respect to the bottom surface even if hot water passing through the same cross- The heat transfer effect can be large.

[Table 1] shows that it is desirable, for example, because a square having the same cross-sectional area, that is, 36 square centimeters, is received and the bottom surface corresponding to the planar sensible heat part 12a is long.

Bottom Height square 6 6 Rectangle 12 3

Even if the sectional shape of the hot water passage space part 11 is formed by a semi-ellipse, a rectangle or an isosceles triangle, rounding of corner portions can minimize the occurrence of vapors of internal hot water. It is possible to easily bend in the case of construction, and it is possible to cause folding or unbalance in the part to be less.

The uniform cross-sectional-shape air moving part 13 has first and second end parts 13a and 13b disposed in close contact with the planar sensible heat part 12a and a first and a second end parts 13a and 13b, and an air moving part 13c connected to the air blowing part d1.

Since the uniform cross-sectional-shape air moving part 13 surrounds the uniform thickness d2 of the curvilinear sensible heat part 12b with an air layer having a uniform width d1, the heat is transferred along the curvilinear sensible heat part 12b The thermal conductivity is better than the uniform cross-sectional area moving unit 13 and can be entirely transferred to the planar sensible heat unit 12a directly connected to the curvilinear sensible heat unit 12b.

The uniform cross sectional air moving part 13 has a uniform width d1 greater than the uniform thickness d2 of the curvilinear sensible heat part 12b and a uniform thickness d3 of the planar sensible heat part 12a, Is made larger than the uniform thickness d2 of the curved surface sensible heat portion 12b because the heat of the hot water passing through the hot water passage space portion 11 can be quickly transferred to the planar sensible heat portion 12a .

Table 2 shows the case where the uniform cross section type air moving part 13 is arranged so as to evenly surround the entire outer peripheral part of the curved surface sensible heat part 12b and the case where the curved surface sensible heat part 12b is locally , When the circular air cushion part is arranged, the energy loss rate is measured and displayed. Similarly, when the 400-calorie hot water is supplied, when the flat type sensible heat part 12a has the uniform cross-sectional area air moving part 13 And the energy consumption rate is also low.

In one embodiment of the present invention  Comparative Example The temperature of the planar sensible heat 34 degrees 28 degrees Energy consumption rate lowness height

In addition, since the uniform cross-sectional-shape air moving part 13 is disposed so as to evenly surround the entire outer peripheral part of the curved surface sensible heat part 12b, it is possible to flexibly bend during the installation of the heating pipe 10, The air layer can also be uniformly relocated.

The uniform section-type air moving part 13 may further include a heat insulating part 14 along the entire circumference thereof.

Although the planar sensible heat part 12a and the heat insulating part 14 are physically connected to each other, the heat shielding parts 14a and 14b made of a heat insulating material may be provided so as not to be transferred to the bottom of the planar sensible heat part 12a May be disposed adjacent to the first and second ends (13a, 13b) of the uniform cross-sectional air moving part (13).

The heat blocking portions 14a and 14b may be an air layer integrally formed with the uniform cross-sectional air moving portion 13.

Particularly, in the case where the sensible heat portion 12 is made of aluminum, stainless steel or copper having a high thermal conductivity, the heat insulating portion 14 can be formed of rubber, synthetic resin or the like.

The thickness d4 of the heat insulating portion 14 is smaller than the thickness d3 of the planar sensible heat portion 12a when the same material is used for the heat insulating portion 14 and the planar sensible heat portion 12a, So that the heat of the hot water passing through the hot water passage space part 11 can be quickly transferred to the planar type sensible heat part 12a.

Now, referring to Figs. 2A to 3C, a pipe for a heating pipe according to another embodiment of the present invention will be described.

FIG. 2A is a perspective view of a pipe for a heating pipe according to a first modification of the embodiment of the present invention, FIG. 2B is a sectional view during use of FIG. 2A, FIG. 2C is a sectional view during transportation and storage, Fig. 3B is a cross-sectional view of a pipe for a heating pipe according to a second modification of the embodiment of the present invention, and Fig. 3C is a cross-sectional view of a second modification of the embodiment of the present invention Sectional view of a pipe for heating piping according to the present invention.

 The pipe 10 for heating piping according to another embodiment of the present invention includes a hot water passage space portion 11 formed to communicate in the longitudinal direction in the same manner as the pipe 10 for heating piping according to the embodiment of the present invention, A planar type sensible heat part 12a which is integrally formed in the passage space part 11 and is arranged horizontally with respect to the floor surface and a planar type sensible heat part 12b which extends downward from the planar sensible heat part 12a to partition the hot water passage space part 11 Sectional shape air moving part 13 which surrounds the curved surface type sensible heat part 12b with a constant width and the whole peripheral part of the curved surface sensible heat part 12b and the uniform cross sectional air moving part 13, And a heat insulating portion 14 surrounding the entire outer peripheral portion with a constant width.

However, the pipe 10 for a heating pipe according to another embodiment of the present invention may include a pair of wings extending in the transverse direction from the planar sensible heat part 12a in order to increase the surface area of the sensible heat part 12, Type sensible heat generating portion 12c.

The wing-type sensible heat part 12c may be provided to cover the heating pipe 20 when the wing-type sensible heat part 12c is given a predetermined force during storage and transportation along the outer peripheral surface of the heat insulating part 14, It is preferable that it can have an elastic restoring force so as to form a surface.

 The wing-shaped sensible heat part 12c is preferably made of a material having a good thermal conductivity so as to improve the heat conduction from the bottom surface, and may be extended integrally with the planar sensible heat part 12a.

The cross-sectional shape of the hot water passage space portion 11 may be such that when the wing-type sensible heat portion 12c is further provided, as shown in Fig. 2 (b), the rounded corner of the square, As shown in Fig. 3 (b), the heat transfer performance is not deteriorated even if the corners have rounded isosceles triangles or circles.

According to the pipe 10 for heating piping according to one embodiment and another embodiment of the present invention configured as described above, the hot water is heated by the planar sensible heat part 12a and the curved surface sensible heat The uniform cross-sectional air uniformly surrounding the curved surface sensible heat portion 12b is not exposed to the bottom of the bottom portion by the eccentric portion 13 and the curved surface sensible heat portion 12b Is heated to a higher temperature than the planar sensible heat part 12a and is guided to the planar sensible heat part 12b formed integrally with the planar sensible heat part 12a at a high temperature (②), and the guided heat is transferred to the planar sensible heat part 12a (③, ④) in the longitudinal direction or in the transverse direction in parallel with the bottom surface along the wing-shaped sensible heat portion 12a, the floor surface can be heated evenly without energy consumption as a whole.

 4, a pipe for a heating pipe according to an embodiment of the present invention will be described.

4 is a flow chart for explaining a method of manufacturing a pipe for a heating pipe according to an embodiment of the present invention.

4, a method of manufacturing a pipe for a heating pipe according to an embodiment of the present invention includes steps S110 and S110 of designing an electric heating design of a pipe 10 for a heating pipe according to an embodiment of the present invention A material suitable for the constituent elements of the heat pipe 10, for example, the sensible heat part 12 and the heat insulating part 14 may be aluminum, stainless steel, copper, rubber or the like suitable for the heat pipe design of the heating pipe (S130) of heating the selected material in at least one or more furnaces to prepare at least one or more molten metal preparing steps (S130), and in accordance with the thermal design design of the heating pipe The hot-water passage space portion 11, which is one of a round semicircular shape, a rectangle, a triangle, and a circle, so as to define a cross-sectional shape without a corner, (S140) of extruding the first molten metal in the molten metal in the longitudinal direction; and a step (S140) of extruding the first molten metal in the molten metal in the longitudinal direction by a uniform width (d1) of the mold for the sensible heat part and the uniform cross- And a step (S150) of extruding the second molten metal of the at least one molten metal using the mold for heat insulating part spaced apart to form the heat insulating part 14 at the same time as the uniform cross-sectional air moving part 13 .

(S140) of extruding a first molten metal of the at least one molten metal in the longitudinal direction through the mold for the sensible heat part (S140); and extruding the second molten metal out of the at least one molten metal to form the uniform cross- And simultaneously forming the heat insulating portion 14 (S150).

When the first molten metal and the second molten metal are made of the same material, the heat blocking portions 14a (14a, 14b) adjacent to the outside of the first and second end portions 13a, 13a of the uniform cross- , And 14b, and the second molten metal can be extrusion-molded.

5 to 9, a heating installation structure using a pipe for a heating pipe according to an embodiment of the present invention and a construction method thereof will be described

FIG. 5 is a cross-sectional view illustrating an installation structure of a pipe for a heating pipe according to an exemplary embodiment of the present invention, and FIG. 6 is a cross-sectional view illustrating a hose connection construction effect of a heating pipe installation structure according to an exemplary embodiment of the present invention. 7 is a plan view illustrating an installation structure of a pipe for a heating pipe according to an embodiment of the present invention, and FIG. 8 is a perspective view illustrating a construction method of a pipe structure for a heating pipe according to an embodiment of the present invention Fig.

5, the installation structure 1 of the pipe for a heating pipe according to an embodiment of the present invention can be applied to a heating mat or a floor heating element, A mat or a porcelain thermal insulation material 22 is laid on the bottom surface 21 of a person living on the floor to form the floor 20 of the heating element 20, A pipe accommodating portion 22 'for a heating pipe, which is opened upward in a cross-sectional shape corresponding to the shape of the heat insulating portion 14, is formed so as to be fitted to the pipe 14 (S220).

Next, the heating pipe 10 may be installed along the pipe accommodating portion 22 'of the heating pipe as shown in FIG. 8 (S230).

The hot water supply space portion 11 which is the lower structure of the pipe 10 for the heating pipe, the uniform cross section air moving portion 13 surrounding the pipe portion 10 and the heat insulating portion 14 are accommodated in the pipe accommodating recessed portion 22 ' , A planar sensible heat part (12a) and a planar sensible heat part (12a) extending integrally in both directions in the transverse direction with respect to a bottom shoulder (23 ') formed around the pipe accommodating recessed part (22' And the wing-shaped sensible heat part 12c can be fixed over.

Therefore, the pipe 10 for the heating pipe can be fixedly installed in the perlite heat insulating material 22 by the pipe accommodating portion 22 'and the bottom shoulder 23' without any fixing means.

The perimetric heat insulator 22 can prevent the generation of heat or the release of heat to the outside of the heat insulating portion 14 below the planar sensible heat portion 12a or the winged sensible heat portion 12c.

In addition, since the perimetric heat insulator 22 prevents the heat from being discharged to the lower side of the bottom surface 20, all of the possible heat can be efficiently transferred to the planar type heat sensing portion 12b, And can be conducted along the sensible heat portion 12a.

Since the planar type sensible heat part 12a and the wing-shaped sensible heat part 12c extending in parallel to the upper surface of the Ondol mat or the Ondol floor body 20 are disposed in parallel with the Ondol mat or the Ondol floor The upper surface of the sub-main body 20 can be quickly heated.

When the bottom surface 21 is removed, the bottom surface 21 is installed such that the planar sensible heat part 12a can be seen by using a vinyl or tile or marble to ride the curved surface sensible heat part 12a So that the guided heat can be conducted to the bottom surface 21 as much as possible.

In addition, when the bottom surface 21 is poured into concrete, the thickness of the bottom surface 21 is less than 5 mm so as to minimize the loss of heat, so that the guided heat is guided along the planar sensible heat part 12a by the curved surface sensible heat part 12b. And can be conducted to the bottom surface 21 as much as possible.

The perlite heat insulator 22 is heated and expanded to break the perlite having fine pores with a granule or powder having a size of 0.5 mm or less and then mixed with an adhesive (natural adhesive) And a mold corresponding to the lower structure of the heating pipe type pipe 10 is pressed thereon so as to easily mold the pipe accommodating recessed portion 22 'for the heating pipe .

The pores between the pearlite particles and the powder are significantly reduced from the pores between the existing pearlite pores, and the dense pores are dense to increase the heat insulating effect, The load strength of the mat or the bottom portion main body 20 can be increased.

That is, according to the construction method of a heating installation structure according to an embodiment of the present invention, the method may include crushing the pearl insulating material with a granule or powder of 0.5 mm or less to remove micropores and dense the pearlite S211).

Meanwhile, according to the construction method of a heating installation structure according to an embodiment of the present invention, a pearl insulating material is used, but a thermal insulating material made of carbon fiber may also be used.

6 and FIG. 7, the heating installation structure 1 according to an embodiment of the present invention includes the uniform cross-section air pipe (10) of the pipe 10 for a heating pipe according to an embodiment of the present invention 13 and the hose 30 or the hot water recovery hose 40 for the hot water supply unit of the hot water boiler (not shown) are connected to the hot water transfer space 11 of the pipe 10 for heating piping (50) at the end of the hose (30) for hot water supply part or the hot water recovery part hose (40) for communicating with each other.

 7, the connecting port 50 integrally formed at the outer circumferential end of the hose 30 or the hot water returning hose 40 is connected to the hose 30 or the hot water returning hose 40 for the hot water supply unit, (40) can be molded integrally at the time of extrusion molding.

The connection port 50 is connected to the extended portion 51a of the hose 30 for the hot water supply unit or the hot water recovery unit hose 40 which is hermetically inserted into the hot water transfer space 11 of the pipe 10 for heating piping, So that the ends of the sensible heat portion 12 or the heat insulating portion 14 of the heating pipe 10 are inserted into the engaging spaces between the extended portions 51a projected from the extended portion 51a Shaped extension portion 51b of the first pipe-shaped extension portion 51b and the second pipe-shaped extension portion 51b protruding from the first branched-type extension portion 51b and being engaged with the uniform cross- And a locking engagement portion 51 including a locking portion 51c.

Since the both end portions of the uniform cross section air moving portion 11 of the heating pipe 10 are sealed by the closing engagement portion 51 as described above, The cross-sectional shape of the uniform cross-section air moving part 11 may not be deformed depending on the temperature.

As shown in Table 3, when the longitudinal end portions of the uniform cross-section air moving portion 11 are sealed with the closing engagement portion 51 and energy is applied, the variation in the width d1 of the uniform cross- It can be seen that the result does not change.

Thermal energy  1000kal 1500kal 2000kal 2500kal Ambient temperature change  20 degrees 25 degrees 30 degrees 40 degrees The width (d1) of the uniform cross-  5mm 5mm 5mm 5mm

Both end portions of the pipe 10 for heating pipe are coupled to the closing engagement portion 51 of the connector 50 to be closed and engaged (S240).

When the hot water is supplied to the heating pipe 10 through the hot water supply hose 30 or the hot water recovery hose 40 of the hot water boiler (not shown), the connecting pipe 50 is connected to the heating pipe 10 so as not to be pulled out from both ends of the bending type coupling couplings 60 (S250).

When the hot water is supplied through the hot water supply hose 30 of the hot water boiler in the pipe structure for heating piping according to the embodiment of the present invention, the hot water passes through the hot water passage space part 11 The air is not directly transmitted to the planar type sensible heat part 12a of the upper face or the uniform cross sectional air can not be transmitted to the eccentric part 11 and is guided along the curved sensible heat part 12b having higher heat conduction efficiency than the uniform cross- And the uniform cross sectional air around the hot water passage space portion 11 is insulated by the heat insulating portion 14 at the outer portion 11 and the outer peripheral portion of the heat insulating portion 12a, To the bottom surface 21 of the mat or the floor heating unit 20 of the floor heating unit.

Particularly, according to an embodiment of the present invention, a planar sensible heat part 12a integrally formed on the upper surface of the hot water passage space part 11 is extended to the wing-like sensible heat part 12c to provide a larger surface area It is possible to reduce the heat loss of the energy as much as possible and to reduce the energy consumption.

Meanwhile, the installation structure for a heating pipe according to an embodiment of the present invention has been described by way of example, but the present invention is also applicable to a hot water heating mat connected to a miniature hot water boiler.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood that various variations and applications are possible.

It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

1: pipe structure for heating piping structure 10: pipe for heating piping
20: a heating mat or an ondol bottom part main body 22: a pearl insulating material
22 ': pipe for receiving the pipe for heating piping 23: support shoulder
30, 40: Hose 50: Connector
51: Closed coupling part 60: Bending type coupling coupling

Claims (7)

A planar type sensible heat unit integrally formed in the hot water passage space part and horizontally arranged with respect to the bottom surface, A plurality of curved surface heat sensing units each having a curved surface sensible heat generating part extending from the planar sensible heat sensing part to define the hot water passage space part and a sensible sensible heat part extending from the planar sensible heat sensing part, And a heat pipe for surrounding the uniform cross-sectional air moving part with a predetermined thickness around the entire outer circumferential part;
A bottom surface formed on the upper surface of the heating mat or the floor heating element body;
A pearl insulating material laminated on the bottom of the bottom surface;
A pipe accommodating portion for accommodating a pipe for a heating pipe which is opened upward in a cross-sectional shape corresponding to the shape of the heat insulating portion so that the heat insulating portion of the pipe for heating pipe formed in the perlite insulating material is fitted; And
And a connection port for sealing both end portions of the uniform cross-sectional-shape air moving portion of the pipe for heating pipe and for connecting the hose connecting the hot water passage space portion and the hot water boiler to the hot water boiler. The method according to claim 1,
Wherein the connection port includes the hose extension portion into which the hermetically sealed space is introduced into the warm water movement space of the pipe for heating piping, and a hose extension portion protruding from the hose extension portion, And a fitting portion which is protruded from the first pillar-shaped extension portion and in which the uniform cross-section air of the heating pipe is pinched by the pivot portion, A piping installation structure for a heating pipe having a coupling portion. The method according to claim 1,
And a bending coupling portion provided around the coupling portion and tightly coupling the hose and the pipe for the heating pipe.
Laminating the thermal insulation mat on the bottom of the bottom of the heating mat or the floor of the Ondol floor body;
Forming a receiving recess upwardly open to receive a pipe for a heating pipe;
Disposing a planar type sensible heat part or a wing type sensible heat part of the heating pipe on the peripheral bottom surface of the receiving recessed part in the receiving recessed part;
Connecting the hose connected to the hot water boiler to one end of the pipe for heating piping, the connecting pipe having a connecting port at both ends in the longitudinal direction of the pipe for heating piping installed in the receiving recessed portion;
And bending coupling the hose and the pipe for the heating pipe on a connection port of the hose with a bending type coupling coupling.
5. The method of claim 4,
The pipe for heating piping is formed to communicate in the longitudinal direction and has a hot water passage space portion having a rounded rectangular shape, an isosceles triangle shape, and a semicircular cross-sectional shape so that its cross section has no corner, and the flat type sensible heat portion or wing And forming a sensible heat part.
5. The method of claim 4,
Wherein the step of laminating the perlite insulation material comprises crushing the perlite with a granule or powder having a pore size of 0.5 mm or less to remove micro-voids and densify the pore, and mixing the adhesive material.
5. The method of claim 4,
Wherein the step of connecting the hose to both ends in the longitudinal direction of the pipe for heating piping comprises the step of interposing a closing engagement part having a pincer part to which the connecting end is pinched with respect to the moving part of the uniform cross- Construction method of pipe installation structure for heating piping.

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