KR20160110720A - Insulation material included wire mesh and Korean floor heating system using insulation material included wire mesh - Google Patents

Abstract

The present invention relates to a Korean floor heating system using a wire mesh insulation material, and a wire mesh insulation material installed on a floor surface of a building. More specifically, the present invention relates to the Korean floor heating system using a wire mesh insulation material, and the wire mesh insulation material where the insulation material has a fixing means and a wire mesh having a heat transfer function. According to the present invention, the wire mesh insulation material has the wire mesh to be easily installed, and time and labor costs consumed for site construction can be reduced. Moreover, the wire mesh is made of expand metal having flexibility of which a degree does not interferes a rolling action of the wire mesh insulation material to enable the wire mesh insulation material to be easily installed and stored.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wire mesh insulator,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wire mesh insulation material applied to a bottom surface of a building and an Ondol structure using the wire mesh insulation material. More particularly, the present invention relates to a wire mesh insulation material having a fixing means and a wire mesh having a heat- .

The principle of Ondol, a Korean heating system, is a method of using heat conduction, radiation, and convection at the same time.

Ondol refers to a heating method that maintains a warm temperature by transferring heat to a stone placed on a floor, convection of heat, and transferring radiant heat to the entire room by the temperature of the floor, through radiation phenomenon and convection of air.

Heating structures using the ondol heating system are designed and used on the floor surface of modern buildings. Various methods are suggested in consideration of more efficient heating.

The double floor heating structure using the ondol heating method disclosed in Korean Patent Publication No. 10-1448226 is configured to heat up the central floor depth of the entire indoor floor of the house when the house is built, The floor is heated by heating the floor of the room while the heat is exchanged with the hollow floor between the foundation floor and the deck member. Therefore, rapid heating is provided and the floor is heated uniformly over the entire floor of the room.

The heating cable of the electric ondol unit disclosed in Korean Utility Model Registration No. 20-0211148 can overcome the limitation of the conventional regenerative electric ondol unit and can be semi-permanently used with a defective heating cable. In addition, since it can be constructed by standardized product, it can be easily constructed by anyone, it is economical because it has a low labor cost, and since the connection part can be made in the last place, the insulation performance is improved and the quality is improved, and the mineral insulated insulation The cable manufacturing process can be quantified and commercialized so that mass production and distribution work can be carried out.

Wire mesh is commonly installed in the above-mentioned heating structure or electric under-heating system.

The wire mesh is mainly composed of a plurality of reinforcing bars arranged side by side at regular intervals, arranged at regular intervals so as to intersect a plurality of reinforcing bars, and fixed by welding or wire knotting between the intersections of the reinforcing bars.

The wire mesh installed in the mortar has a function of uniformly fixing the mortar so as not to break, and transmitting the load of the column or the wall on the upper part of the building evenly to the ground.

In constructing the wire mesh used for the ondol structure, the wire mesh made by connecting the reinforcing bars and the reinforcing bars at the work site takes a lot of work time and the labor cost is increased accordingly.

In addition, since the wire mesh is factory-manufactured and brought to the construction site, it is heavy and bulky, which takes up a lot of space in one place, and is difficult to move, which hinders efficient operation.

Therefore, there is a demand for a simple installation of the wire mesh and a method of installing the Ondol structure at a lower cost.

Korean Registered Patent No. 10-1448226: Dual floor heating structure using ondol system Registered Utility Model No. 20-0211148 of Korea Registered Heating Cable of Electric Ondol Unit

It is an object of the present invention to provide an on-hole structure using a wire mesh insulator having a single structure by combining a wire mesh and a heat insulating material.

Another object of the present invention is to provide an on-hole structure using a wire mesh insulation material which is formed so that a wire mesh does not interfere with the action of heat insulation, thereby providing a wire mesh insulation material easy to store and install.

According to an aspect of the present invention, there is provided a wire mesh thermal insulator comprising: a plate-shaped heat insulator; and a wire mesh fixedly coupled to an upper surface of the heat insulator to form a part of the heat insulator, And fixing means for fixing the heat generating means, and the heat generated by the heat generating means is adhered to the heat generating means so as to uniformly transmit the heat to the entirety of the onhole.

It is preferable that the wire mesh has flexibility enough to allow the action of the heat insulating material to be dried.

It is preferable that the wire mesh is formed of a net-like expanded metal.

The means by which the wire mesh is fixedly coupled to the heat insulating material is preferably composed of an adhesive tape in strip form extending along the longitudinal direction of the heat insulating material.

Wherein the fixing means is installed at an intersection point where the wire of the wire mesh meets with the wire and the wire mesh and the heating means are opened so that the wire mesh and the heating means are pushed in, It is preferable that it is made of a 'U' shaped fixing clip having elasticity so as not to be easily detached.

According to another aspect of the present invention, there is provided an on-hole structure using a wire mesh insulation material, including: a slab placed on a floor of an ondol structure; a moisture-proof vinyl installed on the slab; And a wire mesh insulator which is laminated on the foamed concrete and has a plate-shaped heat insulator and a wire mesh fixedly connected to the upper surface of the heat insulator to form a part of the heat insulator, And the heating means is adhered to the heating means so that the heat generated by the heating means is uniformly transferred to the entire area of the Ondol. The heating means is stacked on the wire mesh heat insulating material. A cement mortar for cement finishing laminated on the heating means, And a LE, and a cement mortar finishing material is deposited on the cement mortar.

Preferably, the wire mesh has flexibility to the extent that the wire mesh insulation is allowed to act.

It is preferable that the wire mesh is formed of a net-like expanded metal.

The means by which the wire mesh is fixedly coupled to the heat-transfer insulating material may include a strip-shaped adhesive tape extending along the longitudinal direction of the heat-insulating and heat-insulating material.

Wherein the fixing means is installed at an intersection point where the wire of the wire mesh meets with the wire and the wire mesh and the heating means are opened so that the wire mesh and the heating means are pushed in, It is preferable that it is made of a fixing clip having elasticity of 'U' shape so as not to be easily detached.

The wire mesh insulator of the present invention and the Ondol structure using the wire mesh insulator can be easily installed because the wire mesh is included in the heat insulating material, and the time and labor cost for the construction in the field can be reduced.

Further, since the wire mesh is made of an expanded metal having flexibility so as not to interfere with the drying action of the wire mesh insulator, there is an advantage that the wire mesh insulator can be easily installed and stored.

1 is a partially cutaway perspective view showing a wire mesh insulation according to a first embodiment of the present invention and an ondol structure using the same.
FIG. 2 is a perspective view of the wire mesh heat insulator according to the first embodiment of the present invention, and FIG.
FIG. 3 is a cross-sectional view of a heat-reflective insulation material used as a wire mesh insulation material according to the first embodiment of the present invention,
FIG. 4 is a perspective view showing a state where the heat generating means according to the first embodiment of the present invention is fixed to the fixing means of the wire mesh, FIG.
FIG. 5 is a cross-sectional view of a heating means and a wire mesh fixing means according to a first embodiment of the present invention, and FIG.
FIGS. 7A and 7B are enlarged views showing various aspects of a wire mesh according to a second embodiment of the present invention,
8 is a view showing a state where the wire mesh and the heat insulating material according to the third embodiment of the present invention are attached,
FIG. 9 is a cross-sectional view showing a state in which a wire mesh and a heat insulating material according to a third embodiment of the present invention are attached to FIG.

Hereinafter, a wire mesh insulator according to a preferred embodiment of the present invention and an Ondol structure using the same will be described in detail with reference to the accompanying drawings.

1 to 6 illustrate an ondol structure using a wire mesh insulation according to an embodiment of the present invention.

The area of the ondol structure according to the present invention may be changed according to the area of the floor formed by the structure of the building according to an embodiment of the present invention shown in FIG.

1, an ondol structure according to an embodiment of the present invention includes a slab 10, a moisture-proofing vinyl 20, a foamed concrete 30, a wire mesh thermal insulator 40, a heating means 50, a cement mortar 60, and a cement mortar finish material 70.

The slab 10 is a foundation concrete portion laid on the bottom surface of the ondol structure.

The moisture-proofing vinyl 20 is made of vinyl resin or vinyl fiber, and is a part to be laminated on the slab 10 and serves to prevent the moisture coming from the slab 10 from being deposited.

The foamed concrete (30) is a part to be laminated on the moisture-proofing vinyl (20). It is a type of lightweight concrete. It is a mixture of foamed material and cement. The foamed concrete (30) is lightweight and can reduce the load of the building, facilitates the accurate horizontal maintenance of the floor surface, and helps the interlaminar sound insulation and thermal insulation effect.

The wire mesh heat insulating material 40 shown in FIG. 2 is a part to be laminated on the foamed concrete 30 and is divided into a heat insulating material 41 and a wire mesh 45.

The heat insulating material 41 is a material for covering the outside of the portion to be kept at a constant temperature and reducing heat loss or heat input from the outside, and is laminated on the foamed concrete 30 in a plate shape which can be curled by external force.

The wire mesh insulation according to the present invention and the Ondol structure using the same can be applied to a variety of structures. However, it is preferable that the heat insulation material 43 according to the present invention shown in FIG.

The heat reflecting thermal insulating material 43 is formed by stacking a first aluminum 43a, a bubble polyethylene 43b, a fibrous nonwoven fabric 43c and a second aluminum 43d in this order.

The first and second aluminum 43a and 43b are in the form of a thin film and are located on the lower surface and the upper surface of the thermal reflection heat insulating material 43 and serve to prevent heat from being emitted.

The foamed polyethylene 43b is extruded by adding a foaming agent to polyethylene, and is a portion laminated on the first aluminum 43a and has a heat insulating function.

The fibrous nonwoven fabric layer 43c is a portion laminated on the bubble polyethylene 43b, preventing condensation and mold, and having a moisture-proof function.

The thermal reflective thermal insulation material 43 may be repeatedly laminated with aluminum, bubble polyethylene, fibrous nonwoven fabric or the like depending on the use.

The wire mesh 45 is fixedly coupled to the upper surface of the heat insulating material 41 to constitute a part of the heat insulating material 41.

Here, the term 'constituting a part of the heat insulating material' means that the heat insulating material 41 and the wire mesh 45 are formed as one member through the coupling means and are handled as one body for transportation, storage and installation.

The wire mesh 45 is mainly composed of a plurality of reinforcing bars arranged side by side at regular intervals and arranged at regular intervals so as to intersect a plurality of reinforcing bars so that the reinforcing bars are knotted by welding or wire between the intersections of the reinforcing bars.

The wire mesh 45 installed on the bottom of a building having a heating function such as an ondol structure is stacked under the heating means. In addition to the function of fixing the heating means, the wire mesh 45 has a heat conduction function of the reinforcing bars constituting the wire mesh 45, And the heat of the heat is transmitted to the bottom surface evenly, thereby enhancing the heating effect.

A method using an adhesive may be used as a means for joining the heat insulating material 41 and the wire mesh 45, and another embodiment will be described later.

The wire mesh 45 is characterized by being flexible enough to allow the action of the wire mesh insulation 43 to be dried.

The flexibility of the wire mesh 45 refers to a property of an elastic body when it receives an external force. The wire mesh 45 should be manufactured in consideration of the elastic modulus, the length, and the supporting method of the material of the wire mesh 45.

The wire mesh 45 has a fixing means 47 for fixing a heating means 50 to be described later provided on the upper surface of the wire mesh 45. The wire mesh 45 has a fixing means 47 for fixing the heating element 50, And is adhered to the heat generating means 50 so as to be uniformly distributed over the area.

Therefore, the wire mesh insulator 40 can be rolled together with the wire mesh 45 to be stored in the form of a roll, and it is advantageous in that the present invention does not require the installation of a separate wire mesh, .

4, the wire mesh insulator according to the embodiment of the present invention and the fixing device 47 for the ondol device using the wire mesh insulator are installed at the intersection point 45c where the wire of the wire mesh 45 meets the wire, U-shaped "shape having elasticity so that the wire mesh 45 and the heat generating means 50 can be pushed in, and the wire mesh 45 and the heating means 50, which are forcibly inserted, And a fixing clip 47a.

Both ends of the fixing clip 47a, which are open at one side, are bent in the direction of the inner side of the fixing clip 47a to fix the inserted wire mesh 45 and a heating means 50 described later.

The fixing clip 47a is not fixed to the wire mesh 45 or the heat generating means 50 and is not limited to the direction of engagement of the fixing clip as shown in Figs. 5A and 5B.

6, the fixing clip 47b may be formed integrally with the intersection point 45c of the wire mesh 45 and may be fixed by inserting a heating means 50 described later.

The fixing clip has the function of fixing the wire mesh and the heating means, and is not limited to the U-shape unless the wire mesh insulation is interfered with the drying action.

The heat generating means 50 is a portion to be laminated on the wire mesh heat insulating material 40 and is a portion where heat is generated in the wire mesh heat insulating material of the present invention and the Ondol structure using the same.

The heat generating means 50 may be arranged in various shapes depending on the size and structure of the bottom of the building because the heat generating means 50 is formed in a long extended tube shape which can be bent.

It is preferable that the heat generating means (50) is arranged in consideration of the heat conduction range of the heat generating means so that there is no portion where heat is not generated on the bottom surface.

As shown in FIG. 9, the heating means 50 may be a heating pipe to which hot water or steam is supplied into the pipe, or a copper pipe in which a heat wire and an insulated wire are embedded.

It is a matter of course that a copper tube having a variety of known structures can be applied to the copper tube.

The cement mortar 60 is a part to be laminated on the heat generating means 50 and is a finishing mat for filling the heat reflecting heat insulating material 40 and the heat generating means 50.

The cement mortar finishing material 70 is a portion to be laminated on the cement mortar 60.

7A and 7B are partial views of a wire mesh insulator according to a second embodiment of the present invention and a wire mesh of an ondol structure using the same.

The wire mesh insulator according to the second embodiment of the present invention shown in Figs. 7A and 7B and the Ondol structure using the wire mesh insulator according to the second embodiment of the present invention are similar to the wire mesh insulator according to the first embodiment of the present invention shown in Figs. 1 to 6, The wire mesh 145 is formed of a net-like expanded metal 145a in the same structure.

The expanded metal 145a is formed by machining a single iron plate into a net shape by lancing and tensile processing, and is flexible enough to be dried.

As shown in FIGS. 7A and 7B, the expanded metal 145a is generally formed in a hexahedral shape and a rhombus shape, but various shapes can be used.

The wire mesh heat insulator 140 constituting a part of the expanded metal 145a can be bent or curled so that it can be easily installed and stored to construct the ondol structure of the embodiment of the present invention.

A wire mesh heat insulator according to a third embodiment of the present invention shown in FIGS. 8 and 9 and an Ondol structure using the same are shown.

The wire mesh insulation according to the third embodiment of the present invention shown in FIGS. 8 and 9 and the Ondol structure using the wire mesh insulation according to the third embodiment of the present invention are the same as the wire mesh insulation according to the first embodiment of the present invention shown in FIGS. 1 to 6, The means for fixing the wire mesh 245 to the wire mesh insulator 240 in the same structure as the structure of the wire mesh insulator 245 is composed of an adhesive tape 249 in strip form elongated along the longitudinal direction of the wire mesh insulator 245 .

The longitudinal direction of the wire mesh heat insulating material 240 refers to the direction in which the wire mesh insulating material 240 is dried.

The adhesive tape 249 is adhered onto the wire mesh insulator 240 and the wire mesh 245 and extends in the longitudinal direction of the wire mesh insulator.

As shown in FIG. 8, a plurality of adhesive tapes 249 are attached at regular intervals in the longitudinal direction of the wire mesh insulator 240.

The wire mesh insulator according to the present invention and the Ondol structure using the wire mesh insulator can be easily installed because the wire mesh insulator includes the wire mesh, and it is expected that the time and labor cost required for the construction in the field can be reduced.

Further, since the wire mesh is made of an expanded metal having flexibility so as not to interfere with the drying action of the wire mesh insulator, there is an advantage that the wire mesh insulator can be easily installed and stored.

The wire mesh insulator according to the present invention and the Ondol structure using the wire mesh insulator according to the present invention have been described with reference to the example shown in the drawings. However, those skilled in the art will appreciate that variations And other equivalent embodiments are possible. Therefore, the scope of the true technical protection of the present invention should be determined by the technical idea of the appended claims.

1: Wire mesh insulation and Ondol structure using it
10: Slab 20: Vibration proof vinyl
30: foamed concrete 40, 140: wire mesh insulation
41, 141: Insulation material 45, 145: Wire mesh
50: heat generating means 47: fixing means
47a: Fixing clip 60: Cement mortar
70: Cement mortar finish
145a: Expanded metal 249: Adhesive tape

Claims (10)

A plate-shaped heat insulating material;
And a wire mesh fixedly coupled to the upper surface of the heat insulating material to constitute a part of the heat insulating material, wherein the wire mesh has fixing means for fixing the heat generating means provided on the upper portion, Wherein the wire mesh is adhered to the heating means so as to be uniformly distributed over the area. The method according to claim 1,
Wherein the wire mesh has flexibility so as to allow the action of the heat insulating material to be dried. 3. The method of claim 2,
Wherein the wire mesh is formed of a net-like metal. The method according to claim 1,
Wherein the means for fixing the wire mesh to the heat insulating material comprises an adhesive tape in strip form extending along the longitudinal direction of the heat insulating material. The method according to claim 1,
Wherein the fixing means is installed at an intersection point where the wire of the wire mesh meets with the wire and the wire mesh and the heating means are opened so that the wire mesh and the heating means are pushed in, And a 'U' shaped fixing clip having elasticity so as not to be separated easily. A slab placed on the bottom of the ondol structure;
A moisture-proof vinyl installed on the slab;
Foamed concrete placed on the moisture proof vinyl;
And a wire mesh fixed to the upper surface of the heat insulating material and constituting a part of the heat insulating material, wherein the wire mesh is fixed to the upper surface of the heat insulating material, Wherein the heating means is bonded to the heating means so that the heat generated by the heating means is uniformly transferred to the entire area of the ondol.
Heating means for being laminated on the wire mesh heat insulator;
A cement mortar for plaster finishing laminated on the heating means;
And a cement mortar finishing material laminated on the cement mortar. The method according to claim 6,
Wherein the wire mesh has flexibility to the extent that the wire mesh heat insulator is allowed to act on the wire mesh insulator. 8. The method of claim 7,
Wherein the wire mesh is formed of a net-like expanded metal. The method according to claim 6,
Wherein the means for fixing the wire mesh to the wire mesh thermal insulator is made of an adhesive tape in strip form extending along the longitudinal direction of the heat transfer insulating material. The method according to claim 6,
Wherein the fixing means is installed at an intersection point where the wire of the wire mesh meets with the wire and the wire mesh and the heating means are opened so that the wire mesh and the heating means are pushed in, U-shaped fixing clip having elasticity so as not to be separated easily.

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