KR100766335B1 - Construction Method of Dry Hot Water Ondol - Google Patents

Abstract

The present invention relates to a construction method of dry hot water ondol, and more particularly, to a construction method of prefabricated dry hot water ondol, to improve the appearance, provide comfortable heating, and reduce noise.

According to the present invention, a support plate (2) formed of a synthetic resin on the bottom (1) and having a groove (3) on the upper surface and a cavity (4) on the lower side is assembled and laid vertically and horizontally, and the heat medium conduit is formed on the upper surface of the support plate (2). The heat transfer plate 6 formed with the support groove 7 is laminated by inserting the heat medium conduit support groove 7 into the groove 3, and then the heat medium conduit 8 is zigzagly piped into the heat medium conduit support groove 7. The dustproof sheet 9 is disposed on the upper surface of the heat transfer plate 6, and the heat accumulating top plate 10 is attached to the connecting portion 11 and attached to the connecting portion 11 on the upper surface of the dustproof sheet 9 in the horizontal direction. It was done.

Support plate, heat transfer plate, heat medium conduit, dustproof sheet, heat storage top plate

Description

Construction Method of Dry Hot Water Ondol {CONSTRUCTION METHOD OF DRY HOT WATER ONDOOL}

1 is a partially cutaway perspective view of an embodiment of the present invention.

2 is a longitudinal sectional view of an embodiment of the present invention.

3 is a longitudinal sectional view of a conventional one.

<Description of Signs of Major Parts of Drawings>

2: support plate 6: heat transfer plate 8: heat medium conduit

9: dustproof sheet 10: heat storage top plate

The present invention relates to a construction method of dry hot water ondol, and more particularly, to a construction method of prefabricated dry hot water ondol.

Hot water floor heating method is a heating method replacing the traditional heating method in the early days of the development, the hot water floor heating method is installed on the floor of a concrete slab, etc. at regular intervals, the hot water at right angles to the support wood While piping the pipe in a zigzag shape, at the same time, the hot water pipe is fixed to the support wood with a wire or the like, and the heat storage material such as stone is filled so that the upper surface of the hot water pipe is covered between the support wood, and concrete mortar is placed on the heat storage material. The wet construction method for forming a heat storage layer has been widely adopted.

The wet construction method has a good heat storage performance and a solid advantage, but it requires a long period of construction by curing the concrete after carrying out the field construction by carrying the supporting wood, the hot water pipe, the heat storage material, and the concrete mortar. In addition, it is necessary to repair the heat storage layer after repairing the heat storage layer in case of leakage of the hot water pipe, which requires a lot of repair time. Therefore, in the industrial facilities such as apartments, the weight reduction, standardization, productivity improvement, shortening construction period, etc. It is being replaced by dry hot water ondol construction method to accelerate.

The dry hot water ondol construction method is formed of synthetic resin on the bottom 30 of the concrete slab and the like, as shown in FIG. 3, and a support plate such as an octahedron having a groove 32 on the upper surface and a cavity 33 on the lower surface. Assembling and laying (31) longitudinally and horizontally, the heat transfer plate 34, such as steel, copper, aluminum, the heat medium conduit support grooves 35 formed on the upper surface of the support plate 31 grooves (heat medium conduit support grooves 35) 32) and laminated in the heat medium conduit support groove 35 to the heat medium conduit 36 consisting of a steel pipe, a copper pipe, and a synthetic resin pipe in a zigzag at intervals of 15 to 20 cm, and on the upper surface of the heat transfer plate 34. An inorganic heat storage top plate 37 is fixedly laminated on the heat transfer plate 34 and the support plate 31 with a nail 38 and the like on the heat transfer plate 34 and on the heat storage top plate 37 as a finishing floor material (not shown). It selectively installs synthetic resins, sheets and wooden parquet.

However, in the dry ondol hot water construction method, first, when the heat dissipated in the heat medium conduit 36 leaks between the connecting portions of the heat storage top plate 37, when the floor covering is laid as a floor covering or a synthetic resin sheet, the floor finishing material discolors in line. As a result, the appearance is bad, and the second heat storage top plate 37 is inevitably stretched according to the season and whether heating is performed, and the nail 38 is relaxed when the heat storage top plate 37 is stretched as described above. In addition, the appearance of the flooring or synthetic resin sheet, which is a finishing floor is bad, and the third floor 30 is not horizontal, so the support plate 31 is not laid horizontally, so the heat transfer plate 34 and the heat storage top plate ( 37) is not in close contact with the gap formed in the downward gradient portion, noise is generated, and because of the gap, heat transfer to the heat storage top plate 37 becomes bad. By this nail shaft recessive top plate is not uniformly heated to a to a problem, such as that can not be comfortable heating since the temperature deviation occurs in the floor heating occurs.

On the other hand, with the deepening of industrial society, the improvement of quality of life has emerged as an important task of modern society, and the noise among these tasks has emerged as a social problem. Especially, the efforts to reduce (attenuate) the noise between floors of group facilities are active. Regulatory standards are also being strengthened. The dry hot water ondol generates solid sound from the heat storage top plate 37 when the occupant is active indoors, and the solid sound is transmitted to the cavity 33 formed in the lower part of the support plate 31. As it is transmitted to the lower layer by airflow, the noise regulation standard is not satisfied.

It is an object of the present invention to provide a construction method of dry hot water ondol which improves the appearance, provides comfortable heating, and reduces noise in view of the above problems and circumstances.

In order to achieve the above object, the present invention is a heat transfer plate formed of a synthetic resin on the bottom and the grooves on the upper surface, the support plate formed in the cavity formed in the lower and horizontally assembled, and the heat transfer plate support groove formed on the upper surface of the support plate After inserting the heat medium conduit support groove into the groove and laminating the heat medium conduit to the heat medium conduit support groove with zigzag, install a dustproof sheet on the upper surface of the heat transfer plate, and connect the heat storage top plate to the upper surface of the dustproof sheet. It is made by laying the connecting member in the vertical and horizontal direction.

1 is a partially cutaway perspective view of an embodiment of the present invention, Figure 2 is a longitudinal cross-sectional view of an embodiment of the present invention, 1 is the bottom of a concrete slab, etc., 2 is a support plate, the support plate 2 is a octahedron by synthetic resin Alternatively, the grooves 3 are formed on the upper surface and the cavity 4 is formed on the lower surface thereof, and they are assembled and laid vertically and horizontally on the bottom 1 at the same time.

When the supporting plate 2 is laid on the bottom 1 as described above, it is preferable to lay the sound absorbing material 5 on which the reflecting plate such as aluminum foil is laminated on the bottom 1, and the sound absorbing material 5 is disposed as described above. When placed, the cavity 4 is formed in a closed cavity, so that noise reduction is good and heat loss can be reduced.

Then, the heat transfer plate 6 of steel, copper, aluminum, etc. having the heat medium conduit support groove 7 formed on the upper surface of the support plate 2 is inserted by laminating the heat medium conduit support groove 7 into the groove 3. The heat medium conduit 8 is zigzagly piped into the heat medium conduit support groove 7, and the heat transfer plate 6 may be laminated on the support plate 2 in advance before the support plate 2 is laid on the bottom 1. It is.

An anti-vibration sheet 9 is provided on the upper surface of the heat transfer plate 6, and the anti-vibration sheet 9 is a porous inorganic material such as ferrite, glass beads, or the like on asphalt, rubber, asphalted rubber, synthetic resin, etc. It is preferable to use a mixture of ceramic powder and the like uniformly. If the inorganic material is mixed with the asphalted rubber as described above, the dustproof characteristics of the base material and the inorganic material can be used to absorb and reduce the solid sound and airflow sound. It can be.

In addition, the inorganic heat storage top plate 10 is laid horizontally and horizontally on the upper surface of the dustproof sheet 9, and when the heat storage top plate 10 is laid, the connection member 11 is inserted and bonded between the connecting portions to complete construction. will be.

The connecting member 11 is formed of a hard synthetic resin or aluminum extruded shape in a ⊥ shape, that is to form a vertical support 111 in the center of the horizontal support 110 and the horizontal support 110 to the vertical support 111 The sides of the connecting portion of the heat storage top plate 10 are positioned at both sides, and the lower surface of the connecting portion of the heat storage top plate 10 is positioned at the horizontal support 110, and the height of the vertical support 111 is greater than the thickness of the heat storage top plate 10. It is to form small.

After the construction as described above, the top surface of the heat storage top plate 10 is to select the construction flooring (not shown), flooring sheet, synthetic resin sheet, wood parquet.

In the present invention as described above, the dustproof sheet 9 is installed on the upper surface of the heat transfer plate 6, and thus the heat transfer plate 6 and the dust is prevented by the elasticity of the dustproof sheet 9 even when the bottom 1 cannot be kept horizontal. Since the sheet 9 is in close contact with each other and the heat radiated from the heat medium conduit 8 is transferred to the dustproof sheet 9 and the heat storage top plate 10 directly or via the heat transfer plate 6, the temperature deviation of the bottom of the room is increased. No sound is generated, and solid sound is absorbed by the base material of the dustproof sheet 9 and airflow sound is reduced by the porous inorganic material so that the noise can be satisfactorily reduced.

The adhesive layer absorbs the expansion and contraction of the heat storage top plate 10 by inserting and attaching the connection member 11 to the connection portion when the heat storage top plate 10 is placed on the top surface of the dustproof sheet 9. Heat dissipated in (8) is prevented from leaking between the connection portions of the heat storage top plate 10, so that deformation of the connection portion of the heat storage top plate 10 is prevented, thereby preventing discoloration and damage of the floor finish.

In addition, the connection member 11 forms a vertical support part 111 in the center of the horizontal support part 110 and the horizontal support part 110 to position the side and bottom surfaces of the heat storage top plate 10, thereby further coupling the connection part. It is firm and can prevent the deformation | transformation of the connection part of the heat storage upper board 10, etc. favorably.

In addition, when the sound absorbing material 5 having the reflective plate laminated on the upper surface of the bottom 1 is placed, the cavity 4 formed in the lower part of the support plate 2 becomes a sealed cavity, so that the solid sound generated when the occupant is active indoors is placed in the sealed cavity. Even if it is transmitted, the solid sound is prevented from propagating to the other support plate 2 side and radiated upward from the reflecting plate 5 to prevent noise from being transferred to the lower layer.

As described above, in the present invention, by installing a dustproof sheet between the heat transfer plate and the heat storage top plate, the heat transfer plate and the heat storage top plate are in close contact with each other so that the heat transfer is good so that the temperature deviation of the floor is not generated and the heating is comfortable, while the noise reduction is good. You will be able to live a comfortable residential life.

In addition, the heat storage top plate is inserted into and bonded to the connection portion without fixing it with nails as in the related art, thereby preventing deformation of the connection portion and preventing discoloration and damage of the floor finish, thereby making the appearance beautiful.

Claims (4)

Assembling and laying vertically and horizontally a support plate formed of synthetic resin on the bottom and having a groove on the top and a cavity on the bottom, and a heat transfer plate having a heat medium conduit support groove formed on the top surface of the support plate is inserted by laminating it into the groove. Afterwards, the heat medium conduit is zigzagly piped into the heat medium conduit support groove, and an anti-vibration sheet is placed on the top surface of the heat transfer plate, and the heat storage top plate is perpendicular to the horizontal support part and the center of the horizontal support part at the connection surface. A method of constructing a dry hot water ondol, which is formed by vertically and horizontally by inserting a connecting member bonded to and supported on side and bottom surfaces of a heat storage top plate by forming a supporting part. The method of claim 1, wherein the anti-vibration sheet is a uniformly mixed porous inorganic material on a substrate selected from asphalt, rubber, asphalted rubber, and synthetic resin. delete The method for constructing a dry hot water ondol according to claim 1, wherein a sound absorbing material in which a reflector is laminated on an upper surface of the bottom is provided.

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