KR200404351Y1 - Flooring block and floor structure using thereof - Google Patents

Abstract

The present invention relates to a floor block for hot water ondol for assembly and construction on the floor of an apartment or villa, and a prefabricated heating floor structure using the same. More specifically, the floor block is made of inexpensive concrete, cement or lightweight foam concrete. It is intended to provide a floor block for hot water ondol and prefabricated heating floor structure using the same to have a strong durability and impact resistance and high thermal efficiency while being formed.

Accordingly, the present invention for achieving the above object in the interlayer floor structure that forms the floor of the apartment house, such as an apartment or villa, including concrete slab, wall concrete, wall insulation material and lightweight foam concrete, concrete, cement or lightweight foam Block body and the upper and lower connection step is projected so as to have a predetermined width and thickness by using concrete to cross the top, bottom and front and rear ends, respectively, and the coupling hole is formed in the upper and lower connection step, respectively. The upper and lower metallass, which are embedded in the upper and lower surfaces including the upper and lower connection step of the block body, are buried in a zigzag form between the upper and lower metallases and the upper and lower metallases of the block body, and both ends thereof are disposed in the zigzag form. Hot water pipes that are pulled in different directions with respect to the body and have connectors for interlocking at their ends The floor block for hot water ondol consisting of a continuous assembly of spaced apart from the wall insulating material on the lightweight foam concrete while being bolted and fixed through the coupling hole of each adjacent upper and lower connection step, the wall insulating material and hot water floor It is characterized by placing quick / high rigid cement mortar between blocks.

Description

Floor block for hot water ondol and prefabricated heating floor structure using same {FLOORING BLOCK AND FLOOR STRUCTURE USING THEREOF}

The present invention relates to a floor block for hot water ondol for assembly and construction on the floor of an apartment or villa, and a prefabricated heating floor structure using the same. More specifically, the floor block is made of inexpensive concrete, cement or lightweight foam concrete. The present invention relates to a floor block for hot water ondol which has strong durability and impact resistance and high thermal efficiency while being formed, and a prefabricated heating floor structure using the same.

In general, it is well known that the floor structure of apartments such as apartments and villas is designed to improve the convenience and economic efficiency while ensuring impact resistance and insulation resistance.

Therefore, recently provided floor structure is made of a structure that is connected to the floor block of metal, wood, plastic material coupled to the hot water pipes in a row. That is, by forming a metal, wood, plastic in a plate shape of a certain size, the hot water pipe is installed in the form of a prefabricated block is installed so that the hot water for heating flows therein, while laying the prefabricated block directly on the concrete slab the hot water pipe Connect to form a single floor structure.

However, according to such a structure, although the prefabricated block is formed of metal, wood, or plastic, durability may be greatly improved, but the following disadvantages occur.

First, in the case of a metal such as copper, the problem of expensive construction as well as inconvenience of construction due to a large weight. In addition, in the case of wood such as plywood is a problem that is difficult to process, expensive and easily corroded. In addition, in the case of plastics, the heat transfer efficiency is lowered as well as non-environmental problems.

In addition, the formation of a structure for circulating the hot water pipe inside the metal, wood or plastic as described above not only results in a price increase from the production stage, but also in installing the hot water pipe inside the block of such a material. Of course, a very difficult technical problem is generated, and a variety of problems occur such that the thermal efficiency is lowered due to the intimacy between the installed hot water pipe and the block.

The present invention is devised to solve the above problems and shortcomings, the main purpose of which is to form a floor block with a hot pipe embedded therein for easy construction while assembling on the floor, the floor block is a concrete of cheap material It is to provide a floor block for hot water ondol and prefabricated heating floor structure using the same, which is formed of cement or lightweight foam concrete to have strong durability and impact resistance and high thermal efficiency.

Another object of the present invention is not only easier to connect the construction of the floor block embedded with hot water pipes, but also to the hot water ondol floor block and prefabricated heating using the same. To provide a floor structure.

Another object of the present invention is to provide a hot water on-floor floor block and a prefabricated heating floor structure using the same to determine the exact position of the floor block to be repaired when a fault occurs with respect to the floor block connected construction, and to perform a quick replacement accordingly. I will.

In the floor block for hot water ondol according to the present invention for achieving the above object is a floor block for assembling construction on the floor of an apartment or villa by forming a hot water pipe therein as a plate shape of a certain size,

Formed into a plate having a certain width and thickness using concrete, cement or lightweight foamed concrete, and the upper and lower connecting step protrudes so that the upper and lower crossovers are respectively crossed at the left, right and front and rear ends thereof. The stepped block body is formed with coupling holes for fastening with bolts, respectively; Upper and lower metal laths, each of which is buried in an upper surface and a lower surface including upper and lower connection steps of the block body to prevent cracking or damage due to impact; And a conduit for circulating hot water embedded in the block main body between the upper and lower metal laths, the both ends of which are connected to each other at the ends of the block main body in a different direction from each other. Combined hot water pipes; Is made of.

At this time, the inlet of the hot water pipes which are introduced into the end of each of the different direction with respect to the block body is provided to be formed in the direction opposite to each other and formed in the direction perpendicular to each other is formed to freely design the circulation path of the hot water.

In addition, the upper and lower connection step through which the hot water pipe is introduced is formed with a recess groove for receiving the exposed hot water pipe and the connector.

On the other hand, the prefabricated heating floor structure using the floor block for hot water ondol of the present invention for achieving the above object is to form the floor of the apartment house, such as apartment or villa, including concrete slab, wall concrete, wall insulation material and lightweight foam concrete In the interlayer floor structure,

Using a concrete, cement or lightweight foam concrete, the upper and lower connecting step protrudes so as to intersect the left and right and the front and rear ends, respectively, and have a predetermined width and thickness. While each is buried in a zigzag form between the upper and lower metallases and the upper and lower metallases, which are embedded in a mesh form, on the upper and lower surfaces including the formed block bodies and upper and lower connection steps of the block bodies. Both end portions are drawn in different directions with respect to the block body, and at the ends thereof, hot water ondol floor blocks made of hot water pipes having a connector for mutual fastening are spaced apart from the wall insulating material on the lightweight foam concrete by a predetermined distance. Bolting is fixed through the coupling hole of each adjacent upper and lower connection step while assembling continuously, Between the ash and the floor block for hot water ondol is made by pouring quick / high rigid cement mortar.

At this time, the inlet of the hot water pipe with the inlet formed in the opposite direction to each other with respect to the bottom block for the hot water ondol and the outer net environment path circulated outward along the inner wall of the floor through the interconnection in the state provided At least two hot water pipe circulation paths divided into a central net environment path circulated to the center of the bottom are formed to block or open each circulation.

In addition, the recessed grooves formed in the upper and lower connection step of the floor block for hot water ondol are assembled after filling the quick / high rigid cement mortar while the exposed hot water pipe and the connector are accommodated.

Hereinafter, a preferred embodiment of the present invention looks at in more detail based on the accompanying drawings.

1 is a partially cutaway perspective view showing a floor block for hot water ondol applied to the present invention, Figure 2 is a side cross-sectional view showing a floor block for hot water ondol applied to the present invention, Figure 3a, 3b is a hot water ondol applied to the present invention It is a top view which shows the floor block for.

The floor block for hot water ondol according to the present invention is embedded in the upper and lower surfaces of the block main body 100 and the block main body formed of concrete, cement or lightweight foam concrete as shown in FIGS. 1 to 3a and 3b. It consists of a hot water pipe 300 embedded in the block body between the upper and lower metallases 200 and the upper and lower metallases.

Thus, the block body 100 is formed in a plate shape having a predetermined width and thickness using a material such as concrete, cement or lightweight foam concrete, and the upper and lower cross to the left, right and front and rear ends respectively. Lower connection step (120, 140) is protruding and the coupling hole 122, 142 for fastening with bolts are formed in the upper and lower connection step (120, 140), respectively.

That is, when the block body 100 of the predetermined size is connected to each other, the neighboring block body 100 and the upper and lower connection terminals 120 and 140 cross each other so that the upper and lower connection terminals 120 and It is formed to firmly engage as a bolt through the coupling holes 122 and 142 of the 140. Therefore, in view of the convenience and efficiency of the production and construction, such a block body 100, the upper surface and the lower surface is formed to approximately 900mm, the overall thickness is preferably formed to about 40mm, the upper and lower connection step The 120 and 140 are most preferably formed about 20 mm with respect to the thickness of the block body 100 so that approximately 50 mm is projected outward while dividing half of the upper and lower thicknesses.

On the other hand, the upper and lower connection step (120, 140) of the block body 100 is formed with recessed grooves (124, 144) recessed a predetermined depth at a position where the hot water pipe 200 to be described later is introduced. In other words, the neighboring block body 100 is connected to each other and the hot water pipe 200 exposed to the outside at the same time as the assembly, the hot water pipe 200 and the connector 220 is connected to the concave groove 124 , 144 is accommodated inside the upper and lower connecting step (120, 140) is not interfere with the connection can be accurately assembled.

The upper and lower metallases 300a and 300b are buried in a mesh form on the upper and lower surfaces including upper and lower connection steps 120 and 140 of the block body 100, respectively. Most preferably, it is embedded approximately 10 mm from the upper and lower surfaces of the < RTI ID = 0.0 >

That is, the upper and lower metallases (300a, 300b) is to be cured together in the interior of the block body 100 when curing, thereby reinforcing the durability of concrete, cement or lightweight foam concrete material to prevent cracking or damage.

The hot water pipe 100 is embedded in the block body 100 between the upper and lower metal lath (300a, 300b) in a zigzag form conduit for circulating the hot water, both ends of which are different from each other with respect to the block body (100) The connector 220 for engagement with each other is coupled at the end in the state of being drawn in the end of the direction.

That is, the hot water pipe 200 is to circulate the hot water supplied through the boiler to the floor and is cured together with the block body 100. The inlet of the hot water pipe 200 is mutually related to the block body 100. Formed in the opposite direction and formed in the direction perpendicular to each is provided to freely design the circulation path of the hot water during assembly construction.

In other words, as shown in FIG. 3A, the inlets of the hot water pipes 200 are formed in opposite directions to each other, and as shown in FIG. 3B, respectively, formed at right angles to each other, so that the block body 100 is made of lightweight foam concrete. 40) When assembled on the hot water pipes 200 are coupled to each other to form a circulated structure is connected to each other.

At this time, the connector 220 is formed to be able to be coupled at one time by close contact with each other, so that the connector 220 is coupled at a time is a general technology, so its specific configuration is omitted.

On the other hand, the hot water pipe is described as a preferred embodiment in the present invention, it is possible to configure the insulating film, heat sink, radiator, etc. in place of the hot water pipe.

The floor block for hot water ondol having such a configuration is solidified through curing for a predetermined time in a state of being molded by a constant mold. That is, after the upper and lower metallases (300a, 300b) and the hot water pipe 200 is installed in the mold to form a state of pouring the kneaded concrete, cement or lightweight foam concrete in a fixed state from the mold Separated floor block for hot water ondol.

Therefore, according to the floor block for hot water ondol having such a configuration, the material of the block body 100 is formed of concrete, cement or lightweight foam concrete, so the production cost of the product is very low. In addition, as the heat storage performance through the hot water pipe 200 is excellent, the heating efficiency is greatly improved, and the upper and lower metallases 300a and 300b formed on the upper and lower surfaces of the block body 100 are hot water pipes. The heating efficiency is further improved by playing the role of heat conduction and heating elements of the heating heat transmitted through the 200.

In addition, the rigid upper and lower metallases (300a, 300b) are embedded in the block body 100 to reinforce the unstable durability of concrete, cement or lightweight foam concrete, close to up to twice as compared to conventional finish mortar Structural stability is secured. Furthermore, the impact resistance is improved through the upper and lower metallases 300a and 300b, thereby not only absorbing the shock sound transmitted between the upper and lower layers, but also attenuating it remarkably, and buffering and impacting against the impact of rolling a foot when a person walks. Absorption results in safe and stable walking.

Figure 4 is a side cross-sectional view showing a prefabricated heating floor structure using a floor block for hot water ondol applied to the present invention, Figure 5 is a plan view showing a prefabricated heating floor structure using a floor block for hot water ondol applied to the present invention.

According to the prefabricated heating floor structure using the floor block for hot water ondol according to the present invention, as shown in FIGS. 4 and 5, the wall insulating material 30 attached to the lower side of the wall concrete 12 and the concrete slab 10 are installed on the concrete slab. The flooring material 30 and the warm water foam floor block and the wall surface insulating material are assembled on the lightweight foam concrete 40 in a state spaced apart from the wall insulation material 30 and the lightweight foam concrete 40 which is placed on the flooring material It consists of a quick / high rigid cement mortar 400 is poured between the 30 and the floor block for hot water ondol.

Accordingly, the wall insulation material 30 is attached to the inner lower portion of the wall concrete 12, has a modulus of elasticity and a loss coefficient of less than a predetermined value, and has a thermal conductivity of less than a predetermined value and is formed to a thickness of at least 10 mm. . At this time, the wall insulating material 30 is attached so as to be closed using an adhesive in a state in which irregularities such as dust, slurry or nails attached to the lower side of the inner wall surface 12 are removed cleanly.

The floor block for hot water ondol is assembled while interconnecting the connector 220 of the hot water pipe 200 in a state configured as described above, the top for accommodating the hot water pipe 200 and the connector 220 The recessed grooves 124 and 144 of the lower connecting step 120 and 140 are constructed by assembling the coupling holes as bolts while filling the quick / high rigid cement mortar.

On the other hand, when the assembly of the floor block for hot water ondol is installed on the lightweight foam concrete 40 is applied so that the gap is not generated by applying an epoxy or inorganic bond to the lower portion and the connection portion of the floor block for hot water ondol.

At this time, the bottom block for hot water ondol is constructed as a spaced apart state from the wall insulation material 30, preferably after the construction so as to be spaced apart at intervals of about 10 ~ 20mm after the wall insulation material 30 and hot water ondol Between the bottom block is built by pouring a quick / high rigid cement mortar (400). In addition, the fastening / high rigid cement mortar 400 is placed on top of the connection portion of the floor block for hot water ondol so that the plane is processed.

At this time, the inlet of the hot water pipe 200 is formed in the direction opposite to each other with respect to the bottom block for hot water ondol is formed in a direction perpendicular to each other outward circulated to the outside along the inner wall of the floor through the interconnection coupling At least two hot water pipe circulation paths are formed, such as a circulation path and a central net environment path circulated to the center of the floor, so that control of blocking and circulating each circulation path is possible.

That is, as shown in Figure 5 when the floor block for hot water ondol assembling and the furniture is placed through the connection of the hot water pipe 200 or built-in cabinet is installed to the outside of the indoor floor does not require much heating By separating and constructing the outer circulation environment path circulated to the central circulation environment path circulated to the center of the indoor floor mainly operated by the person, if necessary to selectively block or open through the valve connected to the circulation path to control the circulation.

In the state where the floor block for hot water ondol is assembled on the concrete slab 10 as described above, in the space between the wall insulation material 30 and the floor block for hot water ondol, the quick / high rigid cement mortar 400 is poured to finish. do.

Therefore, according to such a configuration, since each floor block for hot water ondol is assembled by a unit of a predetermined width, it is possible to attenuate that the vibration generated in one place is transmitted and spread to another block, thereby reducing interlayer noise.

In addition, according to the interlayer floor structure of the above configuration, since the assembly of the floor blocks for hot water ondol directly in the state of producing a large number of factories, such as the construction is more simple, and the impact of the season is less, more stable work is made.

The present invention as described above has been described with reference to one embodiment shown in the drawings, but this is only an example, those skilled in the art that various modifications and equivalent other embodiments are possible from this. Will understand. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

According to the above-described floor block for hot water ondol and the prefabricated heating floor structure using the same, the products are produced by curing them in a factory using materials such as concrete, cement or lightweight foam concrete, and then assembling them on site. Along with the reduction of the unit price and construction cost using the same, the use of the floor block for hot water ondol is very useful effect that the construction is more convenient without the influence of the season.

In addition, as the heat storage performance through the hot water pipe is excellent, not only the heating efficiency is greatly improved, but also the role of the heat conduction and heating elements of the heating heat in which the upper and lower metallases formed on the upper and lower surfaces of the block body are transferred through the hot water pipe. By doing this, a very useful effect of further improving the heating efficiency is exerted.

In addition, by strengthening the unstable durability of concrete, cement or lightweight foam concrete by embedding rigid upper and lower metal laths inside the block body, the impact resistance through the upper and lower metal las while forming a more stable structure than the existing finishing mortar As it is improved, not only the shock sound transmitted between the upper and lower layers is absorbed and attenuated remarkably, but also the cushioning and shock absorption are performed against the impact of rolling a foot when a person walks, thereby exhibiting a very useful effect of safe and stable walking.

1 is a partial cutaway perspective view showing a floor block for hot water ondol applied to the present invention.

Figure 2 is a side cross-sectional view showing a floor block for hot water ondol applied to the present invention.

Figure 3a, 3b is a plan view showing a floor block for hot water ondol to which the present invention is applied.

Figure 4 is a side cross-sectional view showing a prefabricated heating floor structure using a floor block for hot water ondol applied to the present invention.

Figure 5 is a plan view showing a prefabricated heating floor structure using a floor block for hot water ondol applied to the present invention.

[Simple description of symbols for the main parts of the drawings]

10: concrete slab 12: wall concrete

20: flooring material 30: wall insulation

40: light weight foam concrete

100: block body 120, 140: upper and lower connection step

122, 142: coupling hole 124, 144: recessed groove

200: hot water pipe 220: connector

300a, 300b: Upper and lower metallases 400: Fastening / high rigid cement mortar

Claims (6)

In the floor block for assembling construction on the floor of an apartment or villa with a hot water pipe is formed therein as a plate shape of a certain size, Formed into a plate having a certain width and thickness using concrete, cement or lightweight foamed concrete, and the upper and lower connecting step protrudes so that the upper and lower crossovers are respectively crossed at the left, right and front and rear ends thereof. The stepped block body is formed with coupling holes for fastening with bolts, respectively; Upper and lower metal laths, each of which is buried in an upper surface and a lower surface including upper and lower connection steps of the block body to prevent cracking or damage due to impact; And A conduit for circulating hot water embedded in the block body between the upper and lower metal laths in a zigzag form, and both ends thereof are connected to the end of the block body in different directions, and a connector for mutual fastening is coupled at the end thereof. Hot water pipes; Floor block for hot water ondol, characterized in that consisting of. According to claim 1, wherein the inlet of the hot water pipes which are introduced into the end of the different direction with respect to the block body is formed to be formed in the direction opposite to each other and formed in the direction perpendicular to each other characterized in that it is formed to freely design the circulation path of the hot water Floor block for hot water ondol. The floor block according to claim 1 or 2, wherein the upper / lower connection step into which the hot water pipe is drawn is formed with a recessed groove to accommodate the exposed hot water pipe and the connector. In an interlayer floor structure that forms the floor of an apartment house such as an apartment or a villa, including concrete slab, wall concrete, wall insulation, and lightweight foamed concrete, Using a concrete, cement or lightweight foam concrete, the upper and lower connecting step protrudes so as to intersect the left and right and the front and rear ends, respectively, and have a predetermined width and thickness. While each is buried in a zigzag form between the upper and lower metallases and the upper and lower metallases, which are embedded in a mesh form, on the upper and lower surfaces including the formed block bodies and upper and lower connection steps of the block bodies. Both end portions are drawn in different directions with respect to the block body, and at the ends thereof, hot water ondol floor blocks made of hot water pipes having a connector for mutual fastening are spaced apart from the wall insulating material on the lightweight foam concrete by a predetermined distance. While continuously assembling the bolts are fixed through the coupling hole of each adjacent upper and lower connection step, Prefabricated heating floor structure using a floor block for hot water ondol, characterized in that by pouring a quick / high rigid cement mortar between the wall insulating material and the floor block for hot water ondol. According to claim 4, The inlet of the hot water pipe with respect to the floor block for the hot water ondol is formed in the direction opposite to each other in a state provided with a right angle is circulated to the outside along the inner wall of the floor through the interconnect coupling Prefabricated heating floor structure using a floor block for hot water ondol, characterized in that it consists of at least two hot water pipe circulation paths divided into an outer pure environment path and a central pure environment path circulated to the center of the floor. . According to claim 4 or 5, wherein the recessed groove formed in the upper and lower connection step of the floor block for hot water ondol is assembled after filling the fastened / high rigid cement mortar in the state in which the exposed hot water pipe and the connector is accommodated Prefabricated heating floor structure using a floor block for hot water ondol, characterized in that.