KR100523690B1 - Thermal conduction plate installed in a hot-water pipe for reinforcing a concrete layer - Google Patents

Abstract

The present invention relates to a heat transfer plate for concrete reinforcement installed in a hot water pipe, and more particularly, a core material for reinforcing the strength of the concrete layer in the shape of a heat-dissipating part projected on both sides of the heat transfer plate installed in the hot water pipe embedded in the concrete layer. It acts as a subtraction material for vibration noise that minimizes the impact on the lower part by distributing the vibration noise generated from the upper part of the concrete layer in the horizontal direction so that the thickness of the concrete layer in which the hot water pipe is buried can be significantly reduced than before. Not only can the material cost required for construction work be greatly reduced, but the heat transferred from the hot water pipes due to the large contact area between the heat dissipating part of the heat transfer plate and the concrete layer is significantly faster than before. It can be delivered to the entire surface of the floor, greatly reducing the energy cost of heating. When installing the hot water pipes, the hot water pipes are more easily and stably installed in the heat insulation layer in which the installation grooves are concave, and the projections and the through holes maintain a firm coupling with the concrete layers. The present invention relates to a heat transfer plate for reinforcing concrete installed in a hot water pipe that can further improve durability of the concrete layer by preventing cracks.

In the present invention, a pipe inserting portion (2) having a hot water pipe inserted therein is formed at a central portion thereof, and heat dissipating portions (4a) and (4b) are formed at both side ends of the pipe inserting portion (2), respectively, and the pipe inserting is performed. In the connection portion between the part 2 and the heat dissipation parts 4a and 4b, the pipe fixing pieces 3a and 3b for fixing the hot water pipes are bent, respectively, and the heat dissipating parts 4a and 4b are provided. It is characterized in that each of the plurality of projections 5 and the through hole 6 is formed.

Description

Heat conduction plate installed in a hot-water pipe for reinforcing a concrete layer

The present invention relates to a heat transfer plate for reinforcing concrete installed in the hot water pipe, and more particularly, the pipe inserting portion inserted into the outer periphery of the hot water pipe on the outside of the hot water pipe for heating embedded in the concrete floor of the floor or inner wall of the building. And heat transfer plates composed of heat dissipating parts protruding in the shape of wings at both ends of the pipe inserting part are installed at regular intervals, so that the wing-shaped heat dissipating parts protruding on both sides of the heat transfer plates installed in the hot water pipes buried in the concrete layer have strength of the concrete layer. It acts as a core material to reinforce the core and disperses the vibration noise generated from the upper part of the concrete layer in the horizontal direction to serve as a subtraction material of the vibration noise minimizing the effect on the lower part. Significantly reduced material costs for construction work In addition, the heat transmitted from the hot water pipe is transferred to the entire surface of the concrete layer at a high speed within a significantly shorter time than the conventional one due to the large contact area between the heat dissipating part of the heat transfer plate and the concrete layer. Energy costs can be greatly reduced, and hot water piping is more easily and reliably installed in the insulation layer in which the installation grooves are concave when installing the hot water pipe, and the projections and throughholes maintain a firm coupling state with the concrete layer. The present invention relates to a heat transfer plate for concrete reinforcement installed in a hot water pipe that can further improve the durability of the concrete layer by preventing cracking of the buried concrete layer.

Conventionally, in order to construct a heating facility in a house, a greenhouse, a barn, etc., as shown in FIG. 1A, a heat insulation layer 10 made of styrofoam sheet material is installed on a floor or an inner wall of a building, and a lattice shape is formed on an upper surface of the heat insulation layer 10. After installing the wire mesh (wire-mesh) 12 is installed by bending the hot water pipe (11) circulated at a predetermined interval on the upper surface of the wire mesh 12, the heating hot water heated by a hot water boiler, etc. As shown in 1b, the thin wire 13 is used to bind the hot water pipe 11 to the upper surface of the wire mesh 12 so as not to flow, and the concrete is poured to a predetermined thickness to cure for a predetermined period of time to heat the hot water pipe. 11 forms a solid concrete layer 14 embedded.

When the hot water circulates by operating the boiler in the conventional hot water pipe completed as described above, the heat is dissipated through the outer circumferential surface of the hot water pipe 11 embedded in the concrete layer 14. The heat is gradually transferred to the upper surface of the concrete layer 14 through) to heat the interior of the building.

However, in the conventional hot water pipe as described above, since the heat transferred by the hot water flowing inside the hot water pipe 11 is limited to the outer peripheral surface of the hot water pipe 11, the concrete layer (from the hot water pipe 11) In order to proceed with heat transfer to the upper surface of 14), there was a closed time that required considerable time and energy costs such as fuel and electricity.

In order to eliminate such a closed end, the hot water pipe 11 should be installed by narrowing the space between the pipes further, or the thickness of the concrete layer 14 to be poured on top of the hot water pipe 11 should be formed thinly. In the case of narrowing the construction, the hot water pipes 11 are required to increase the cost of materials, and when the concrete layer 14 is formed thin, the strength of the concrete layer 14 is lowered. It is vulnerable to the shock applied to the upper surface of the floor (14) has a fatal problem that easily cracks or vibration and noise problems between the upper and lower floors in the case of apartments or multi-family houses. No. 1986.10.8 discloses that panels for hot water ondol are formed by forming a pedestal at the bottom of the panel and laying pipes in grooves formed on the top of the pedestal. It is known that insertion grooves are formed in the hot plate at regular intervals, cutouts are formed so that both shafts of the insertion grooves are formed, and the stone pieces are wrapped in the pipes inserted into the insertion grooves. The panel can prevent the flow by fixing the pipes installed on the floor when curing the concrete applied to the floor, but the heat transfer plate is installed between the concrete and the concrete, so that the strength of the concrete layer is strengthened due to the lack of adsorptive force between the concrete and the heat transfer plate. There was a problem that the durability is lowered.

In order to solve the above problems, the present invention provides heat dissipation protruding in the shape of a wing at both ends of the pipe insertion portion and the pipe insertion portion which are coupled to the outer circumference of the hot water pipe on the outside of the hot water pipe for heating embedded in the concrete floor of the building floor or inner wall. Since the heat transfer plates each having a plurality of protrusions and through holes formed therein are inserted at regular intervals, the wing-shaped heat dissipating portions protruding on both sides of the heat transfer plates installed in the hot water pipes embedded in the concrete layer reinforce the strength of the concrete layer. Simultaneously plays a role of core material, and the vibration noise generated from the upper part of the concrete layer is distributed horizontally to minimize the effect on the lower part, thereby acting as a subtraction material of the vibration noise. It can reduce the material cost for construction work In addition, the heat transmitted from the hot water pipe is transferred to the entire surface of the concrete layer at a high speed within a significantly shorter time than the conventional one due to the large contact area between the heat dissipating part of the heat transfer plate and the concrete layer. Energy costs can be greatly reduced, and hot water piping is more easily and reliably installed in the insulation layer in which the installation grooves are concave when installing the hot water pipe, and the projections and throughholes maintain a firm coupling state with the concrete layer. Technical problem is to prevent the cracks in the concrete layer embedded in the pipe to further improve the durability of the concrete layer.

In order to achieve the above technical problem, the present invention provides a pipe inserting portion in which a hot water pipe is inserted into a central portion, and a heat dissipation portion is formed at both sides of the pipe inserting portion to protrude, and the pipe inserting portion and the heat dissipating portion are connected to each other. The pipe fixing piece for fixing the hot water pipe is bent at each site, the heat dissipating portion is characterized in that a plurality of projections and through holes are formed, respectively.

Hereinafter, the present invention will be described in detail with reference to FIGS. 2 to 7 to achieve the above object.

Figure 2 is a perspective view showing a heat transfer plate for concrete reinforcement similar to the conventional configuration, Figure 3 is a plan view showing the installation state of the heat transfer plate for concrete reinforcement of Figure 2, Figure 4 is a construction of the heat transfer plate for concrete reinforcement of Figure 2 Figure 5 is a cross-sectional view showing a state, Figure 5 is a graph showing a comparison of the performance curve of the hot water pipe and the conventional hot water pipe is installed heat transfer plate for concrete reinforcement of the present invention.

And, Figure 6 is a perspective view showing an embodiment of the heat transfer plate for concrete reinforcement according to the present invention, Figure 7 is a cross-sectional view showing the construction state of the embodiment of the heat transfer plate for concrete reinforcement of FIG.

The concrete reinforcing heat transfer plate installed in the hot water pipe according to the present invention has a pipe inserting portion (2) is formed in the center portion is inserted into the hot water pipe is installed, as shown in Figure 6, both sides of the pipe inserting portion (2) The heat radiating portions 4a and 4b are formed to protrude from the end thereof, and the pipe fixing pieces 3a and 3b fixing the hot water pipes at the connection portions of the pipe inserting portions 2 and the heat radiating portions 4a and 4b. ) Are each configured to bend.

In addition, the heat transfer plate 1 may be formed by processing a copper plate, an aluminum plate, a galvanized iron plate, or the like having a high heat transfer coefficient having a high heat transfer coefficient, using a press or the like, and dissipating the heat transfer plate 1. It is comprised so that the some protrusion part 5 and the through hole 6 may be formed in the part 4a and 4b, respectively.

Referring to the installation and working relationship of the heat transfer plate for concrete reinforcement installed in the hot water pipe according to the present invention configured as described above are as follows.

When installing the heat transfer plate for concrete reinforcement according to the present invention, as shown in Figure 3 and 4, the hot water pipe so as to maintain a constant interval between the heat radiating portion (4a) (4b) of the heat transfer plate (1) 11) is gently bent and placed on the upper surface of the heat insulating layer 10 made of styrofoam material, etc., and then provided with a plurality of heat transfer plates 1 to the inside of each of the pipe inserts 2 of the hot water pipe 11. After the outer circumferential surface is inserted, the pipe fixing pieces 3a and 3b are bent to surround the upper surfaces of the inserted hot water pipes 11, respectively, and are firmly fixed so as not to flow from side to side.

In addition, the concrete is evenly distributed on the upper and lower portions of the heat dissipation parts 4a and 4b formed on the plurality of heat transfer plates 1 inserted into the outer circumferential surface of the hot water pipe 11 at a predetermined interval on the top of the installed hot water pipe 11. The construction is completed when the concrete layer 14 having a predetermined thickness that is solid by pouring is formed.

Comparing the hot water pipe with the concrete reinforcement heat transfer plate according to the present invention completed as described above and the conventional hot water pipe without the heat transfer plate for concrete reinforcement, first, the conventional hot water pipe is usually of the concrete layer in which the hot water pipe is buried In order to maintain the durability and to solve the vibration and noise problem that is a fatal problem between the upper and lower floors, such as apartments and multi-family houses, the thickness of the concrete layer should be formed to be at least 25 mm from the top of the hot water pipe, while the present invention In the hot water pipe installed with the heat transfer plate for reinforcement of concrete, a plurality of heat transfer plates 1 are inserted into the outer circumference of the hot water pipe at regular intervals and are formed like a skeleton at a predetermined interval inside the concrete layer 14 so that the concrete layer ( By acting as a reinforcing core to reinforce the compressive strength of 14) Even if the hot water pipe 11 is formed with a thickness of about 15 mm, which is about half of the thickness of the concrete layer 14 in which the conventional hot water pipe is buried, the same strength as that of the conventional concrete layer can be maintained, so that the hot water can be maintained. Material costs such as concrete required for the construction work of the pipe can be significantly reduced.

And, the heat transfer plate for concrete reinforcement according to the present invention is the heat dissipation portion (4a) of the heat transfer plate (1) thumping vibration noise generated in the upper floor in the case of serious building vibration and noise problems between the upper and lower floors, such as apartments or multi-family houses (4b) along the horizontal direction to minimize the impact on the lower floor by minimizing the damage caused by the vibration noise of the upper floor will also act as a subtraction material of the vibration noise.

In addition, as shown in FIG. 5, the time taken for the surface average temperature of the concrete layer 14 to reach 40 ° C. in the hot water pipe in which the concrete reinforcing heat transfer plate is installed and the conventional hot water pipe in which the heat transfer plate is not installed are shown. Compared with the heat transfer rate, the time taken for the surface average temperature of the concrete layer 14 to reach 40 ° C. in the performance curve B of the conventional hot water pipe without the heat transfer plate 1 for concrete reinforcement is installed. While the heat transfer proceeds relatively slowly from the hot water pipe to the surface of the concrete layer, it takes about 60 minutes, while the concrete layer 14 has a performance curve A of the hot water pipe in which the heat transfer plate 1 for concrete reinforcement of the present invention is installed. The heat transmitted by the hot water passing through the inside of the hot water pipe 11 embedded therein passes through the pipe inserting portion 2 of the heat transfer plate 1 coupled to the outer circumferential surface of the hot water pipe 11. After being transferred to the heat dissipating parts 4a and 4b protruding in the shape of a wing at the side end, it is transferred to the concrete layer 14 which is in contact with a large surface area, and then quickly transferred to the upper surface of the concrete layer 14, so that in about 15 minutes Since the surface average temperature of the concrete layer 14 reaches 40 ° C., the heat transfer rate of the hot water pipe can be improved dramatically, as much as the area C representing the difference in thermal energy between the performance curve A and the performance curve B. Energy costs such as fuel and electricity required for heating will be significantly reduced.

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On the other hand, as shown in Figure 7 when the installation of the hot water pipe 11, the heat transfer plate 1 is inserted into the outer circumferential surface of the hot water pipe 11 at regular intervals and then installed on the upper surface of the styrofoam with concave forming groove 10a After the hot water pipe 11 is inserted into the heat insulating layer 10 made of ash, a plurality of protrusions 5 protruding from the heat radiating portions 4a and 4b of the heat transfer plate 1 are formed on the upper surface of the heat insulating layer 10. When it is fixed to be deeply embedded, since the hot water pipe 11 and the heat transfer plate 1 disposed on the upper surface of the heat insulating layer 10 is firmly fixed without flowing, the installation of the hot water pipe 11 becomes easier and more concrete. When placing the hot water pipe (11) is lifted or the heat transfer plate (1) to be installed stably without flowing to the left and right.

And, when installed and installed in a conventional heat insulating layer 10 is not provided with an installation groove (10a) on the upper surface of the heat transfer plate (1) installed at regular intervals in the outer periphery of the hot water pipe 11 when the concrete is poured As the concrete poured through the plurality of through holes 6 formed through the heat dissipating portions 4a and 4b is hardened by passing, the plurality of protrusions 5 protruding up and down are embedded in the concrete layer 14, thereby providing a concrete layer. Not only prevents cracking caused by the impact applied to the upper surface of (14), but also prevents cracking due to the intrinsic self-heating reaction generated in the concrete curing process, thereby further strengthening the strength of the concrete layer 14. Thus, the durability of the concrete layer 14 in which the hot water pipe 11 is embedded can be remarkably improved.

In addition, when the protrusions 5 formed on the heat dissipating portions 4a and 4b of the heat transfer plate according to the embodiment of the present invention are formed to protrude to about 5 to 7 mm, the concrete layer required to be at least necessary to embed the conventional hot water pipes. Even if the concrete layer 14 is formed from the top of the hot water pipe 11 to a thickness of about 10 mm, which is reduced by 15 mm from 25 mm, which is the thickness of 14, it is possible to maintain the same strength as the thickness of the conventional concrete layer. Material costs such as concrete required for the construction work of the pipe will be further reduced.

The heat transfer plate for concrete reinforcement according to the present invention as described above is inserted into the outer periphery of the cooling pipe that is circulated in the floor or inner wall of the building for cooling only to circulate the refrigerant to reinforce the strength of the concrete layer for durability. It turns out that it is possible to install applications such as improving the cooling efficiency significantly.

The concrete reinforcing heat transfer plate installed in the hot water pipe according to the present invention as described above comprises a pipe inserting portion inserted into the outer periphery of the hot water pipe and a heat radiating portion protruding in a blade shape at both ends of the pipe inserting portion, and the plurality of heat radiating portions. Wings protruding on both sides of the heat transfer plate installed in the hot water pipe embedded in the concrete floor by forming the two projections and the through-holes so as to be inserted at regular intervals outside the heating hot water pipe embedded in the concrete floor of the building floor or the inner wall. The heat radiating part of the shape serves as a core material to reinforce the strength of the concrete layer, and the hot water pipe is buried because it acts as a subtraction material for vibration noise that minimizes the effect on the lower part by distributing the vibration noise generated from the upper part of the concrete layer in the horizontal direction. Construction can be made to significantly reduce the thickness of the concrete layer than conventional In addition to significantly reducing material costs, the heat transfer from the hot water pipes due to the large contact area between the heat-dissipating part of the heat transfer plate and the concrete layer, the surface of the concrete layer at high speed within a significantly shorter time than the conventional one. Since it is delivered as a whole, it is possible to significantly reduce the energy cost of heating.

When the hot water pipe is installed, the hot water pipe is more easily and reliably installed in the heat insulating layer in which the installation groove is concave, and the protrusion and the hole maintain a firm coupling state with the concrete layer. By preventing the cracks will have the effect of further improving the durability of the concrete layer.

Figure 1a is a plan view showing the installation state of the hot water pipe according to the prior art.

Figure 1b is a cross-sectional view showing a construction state of the hot water pipe according to the prior art.

Figure 2 is a perspective view showing a heat transfer plate for concrete reinforcement similar to the conventional configuration.

Figure 3 is a plan view showing the installation state of the heat transfer plate for concrete reinforcement of FIG.

4 is a cross-sectional view showing a construction state of the heat transfer plate for concrete reinforcement of FIG.

Figure 5 is a graph showing a comparison of the performance curve of the hot water pipe and the conventional hot water pipe is installed heat transfer plate for concrete reinforcement of the present invention.

Figure 6 is a perspective view showing an embodiment of a heat transfer plate for concrete reinforcement according to the present invention.

7 is a cross-sectional view showing a construction state of the embodiment of the heat transfer plate for concrete reinforcement of FIG.

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

1: heat transfer plate 2: pipe insert

3a, 3b: piping fixing pieces 4a, 4b: heat dissipation part

5 protrusion 6 through-hole

10: heat insulation layer 10a: installation groove

11: hot water pipe 12: wire mesh

13: fixed wire 14: concrete layer

Claims (2)

( delete ) (정정) A pipe inserting portion (2) is formed in the central portion is installed hot water pipe is inserted, Radiating portions 4a and 4b are formed to protrude from both end portions of the pipe insertion portion 2, respectively. In the connecting portion between the pipe inserting portion 2 and the heat dissipating portions 4a and 4b, the pipe fixing pieces 3a and 3b for fixing the hot water pipes are bent, respectively. The heat dissipation unit (4a) (4b) is a heat transfer plate for concrete reinforcement installed in the hot water pipe, characterized in that a plurality of projections (5) and through holes (6) are formed respectively.