JPS636327A - Floor heating device - Google Patents

Abstract

PURPOSE:To simplify installation of a device and to shorten a term of an installing work and decrease a cost, by a method wherein a flange piece is placed on the upper surfaces of joist and a support plate is supported between the square woods, a circulating pipe is contained in a containing groove formed in a recessed state in the upper surface of the support plate, and floor materials are laid on the surfaces of the support plate. CONSTITUTION:Flange pieces 3 are overhung from both sides of a support plate 2 made of a metal to under surface of which a heat insulating material 1 is laminated, and the flange pieces placed on joists 4 to support the support plate 2. A circulating pipe 6, through which a heating medium is circulated, is contained in a containing groove 5 recessed in the upper surface of the support plate 2, and the pipe is adhered to the surface of the support plate 2 to lay a floor material 7. Thus, the long circulating pipe 6 can be continuously arranged, and the number of connection spots of a piping can be reduced. Further, the floor material 7 can be placed approximately directly on the joists 4, and a difference in stage between a floor surface, wherein a floor heating device is not mounted, and the floor surface, where the device is mounted, can be prevented from generating. Therefore, mounting of the floor heating device can be facilitated, and heat radiated from the circulating pipe can be guided to a floor surface with high efficiency.

Description

[Detailed description of the invention] 【Technical field】

The present invention relates to a floor heating device for heating a room from under the floor by circulating a heat medium such as hot water in a circulation pipe installed under the floor.

[Background technology]

Conventionally, as shown in @11 Figures (a) and (b),
A heating panel 1 in which a circulating vibro is sandwiched between two upper and lower metal plates 14, and a heat insulating material 16 is filled in the part where the circulating vibro is not present.
5 were placed on the joists and laid out in combination on the floor part, the circulating vibrators of the adjacent heating panels 15 were connected to each other, and the flooring material was laid on the heating panels 15. For this reason, the number of connection points for the circulation vibro increases, making construction complicated, water leakage from the connection points is likely to occur, and if you try to reduce the number of connection points, the heating panel 15 will become larger and construction efficiency will deteriorate. was there. In addition, heat was radiated from the metal plate 14 on the lower surface to the underfloor, resulting in poor thermal efficiency. The one shown in FIG. 12(a) is another conventional example, in which a subfloor board 18 such as plywood with a heat insulating material 17 pasted on the bottom surface is laid over the joists 4, and a circulation vibro is appropriately piped on top of this. A spacer panel 20 with a groove 19 provided on the lower surface is placed on the floor base plate 18 so that a circulating vibro is housed in the groove 19, and furthermore, a 4! A floor heating device was constructed by laying a heat dissipation plate 21 formed of a rounded plate and placing a floor material 7 on top of the heat dissipation plate 21. Also, Figure 12 (
In b), a spacer panel 20 is arranged between each circulating vibro, and the flooring material 7 is directly placed on top of the spacer panel 20. In these conventional methods, each component is installed one by one, which results in many construction errors, and it takes time and effort to install the floor heating system.Furthermore, the heat radiated downward from the circulating vibrator is transferred to the surface flooring material 7. No consideration was given to informing the public. Furthermore, in any of the above-mentioned floor heating systems, the floor heating system (especially the circulating vibro) is located above the joist 4, and as a result, the floor surface is raised, making it difficult to install the floor heating system. There was also the problem that there was a difference in the height of the floor between the rooms and the rooms that were not treated.

[Purpose of the invention]

The present invention was made in view of the above-mentioned technical background, and its purpose is to facilitate the installation of a floor heating system and to efficiently transfer heat radiated from circulation pipes to the floor surface. The purpose is to prevent floor heating from occurring between rooms that are not equipped with a floor heating system and a room that is not equipped with a floor heating system.

[Disclosure of the invention]

In the floor heating device of the present invention, flange pieces 3 are extended on both sides of a metal support plate 2 with a heat insulating material 1 pasted on the lower surface, and the flange pieces 3 are placed on the upper surface of a joist 4 to form a support plate 2. is supported between the joists 4, a circulation vibro for circulating a heat medium in the storage groove 5 recessed on the upper surface of the support plate 2 is delivered, and the flooring material 7 is stretched in close contact with the surface of the support plate 2. It is characterized by: Since the heat insulating material 1 is placed on the lower surface of the support plate 2, the heat radiated from the circulating vibro can be prevented from escaping to the underfloor. In addition, the bottom surface of the circulation vibro has a metal support @
2 and the support plate 2 is in contact with the lower surface of the flooring material 7, so not only the heat radiated upward from the circulating vibro, but also the heat radiated downward from the circulating vibro is transmitted through the support plate 2 to the flooring material 7. The heat radiated from the circulating vibro is efficiently radiated indoors to provide floor heating. Further, since the circulating vibro is stored in the storage groove 5 of the support plate 2 disposed between the joists 4, long circulating vibros can be connected in succession, and the number of piping connections can be reduced. Furthermore, since the circulating vibro is housed in the storage groove 5 recessed in the upper surface of the support plate 2, the circulating vibro is piped below the joists 4, and the flooring material 7 is placed on top of the joists 4. It can be placed almost directly and eliminates the level difference between it and the floor of a room where a floor heating device is not installed. Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The support plate 2 is formed by bending a metal plate, and has a width slightly larger than the construction interval between the joists 4, and as shown in Fig. 2, the support plate 2 is bent into a substantially U-shaped cross section on both sides. A storage groove 5 is formed, and a flange piece 3 for placing and fixing on the joist 4 extends further to the side of the storage groove 5. Further, a portion of the flange piece 3 is cut downward and a sharp claw piece 8 is made to protrude from the lower surface of both i of the flange piece 3. Further, a heat insulating material 1 made of foamed synthetic resin such as foamed urethane resin is attached to the lower surface of the support plate 2, except for the portion placed on the joist 4 of the flange piece 3. Therefore, during construction, as shown in Figure 1, the support plate 2 is arranged between the joists 4 so that the heat insulating material 1 is fitted between the joists 4, and the flange pieces 3 on both sides of the support plate 2 are attached to the joists 4. The nail piece 8 on the lower surface of the flange piece 3 is hammered into the upper surface of the joist 4 to fix it so that it does not move. In this way, the support plates 2 are disposed so as to be continuous over the entire length between all the joists 4, and the storage grooves 5 of the support plates 2 that are continuous vertically are also continuous. After this, a long continuous circulation vibro is piped into the storage groove 5. Here, the depth of the storage groove 5 is set so that the top surface of the circulation vibro and the top surface of the support plate 2 are at the same height when the circulation vibro is stored. After connecting each circulating vibro piped in this way,
Furthermore, the end of the circulating vibro is connected to a hot water supply so that hot water can be fed into the circulating vibro. Furthermore, the support plate 2 is placed in close contact with the upper surface of the support plate 2.
Flooring material 7 is laid on top of the floor heating system. When high-temperature hot water is circulated within the circulating vibro, the heat within the circulating vibro is radiated and the floor is warmed.
It is possible to heat the room from the floor. What is shown in FIG. 3 is a fifth embodiment of the present invention, and only the negative flange piece 3 is shown broken. That is,
A concave portion 9 and a convex portion 10 are provided at both ends of the flange piece 3 of the support plate 2 in the length direction, and the flange piece 3
Then, cut and raise the claw pieces 8 downward at a constant pitch.
Ru. Therefore, when installing the support plate 2 between the joists 4,
The concave portion 9 and the convex portion 10 of the support plate 2 adjacent in the length direction are
By fitting as shown in the figure, the positions of the support plates 2 in the width direction can be positioned and matched, and the storage rR5
This prevents misalignment between the two openings, and makes piping of the circulating vibro into the storage groove 5 easy. By biting in, the support plate 2 can be easily fixed. What is shown in FIG. 5 is a fifth embodiment of the present invention, in which recesses 1 can be fitted into concave and convex portions on both end surfaces of the heat insulating material 1 on the lower surface of the support plate 2.
1 and a protrusion 12 are provided, and the positions of the recess 11 and the protrusion 12 on both end faces are reversed when the support plate 2 is translated in the longitudinal direction. However, when the support plates 2 are arranged between the joists 4, the support plates 2 adjacent to each other in the length direction
By fitting the recesses 11 and the protrusions 12 of the light surface of the heat insulating material 1 into a concave-convex fit as shown in FIG. This makes it possible to prevent positional deviations from occurring between the two. What is shown in FIGS. 7 and 8 is a fourth embodiment of the present invention, in which a foamed synthetic resin heat insulating material 1 is integrally molded and crushed on the back side of a metal support plate 2. The curing and contraction force of the heat insulating material 1 during foam molding causes the support plate 2 to bleed upward. That is, during molding, the heat insulating material 1 is attached to the lower surface of the support plate 2 as shown in FIG. 7, and when the heat insulating material 1 hardens and shrinks, the support plate 2 loses blood as shown in FIG. 8. In addition, storage groove S
When warm water is passed through the internal circulation vibro, the metal support plate 2 expands, further reducing blood loss to the upper side of the support plate 2 by l[V
becomes. However, if the support plate 2 is bleeding upward in this way, the support plate 2 will move to the flooring 74. It comes into elastic contact with the lower surface of the material, increasing adhesion, and the heat radiated downward from the circulating vibro is efficiently transmitted to the flooring material 7 through the support plate 2.
The rigidity of the support plate 2 against floor loads is also improved. What is shown in FIG. 9 is a fifth embodiment of the present invention, in which a large number of small holes 13 are bored in the support plate 2, and a foamed synthetic street resin insulation material 1 is integrally foam-molded on the lower surface of the support plate 2. It is something. Since the support plate 2 is provided with a large number of small holes 13, the small holes 13 can be used for steam ventilation as shown in FIG. 10 during foam molding of the heat insulating material 1. Furthermore, the adhesion of the heat insulating material 1 to the support plate 2 is also improved. Effects of the Invention Since the present invention is constructed as described above, it is possible to floor the floor by simply arranging the support plate between the joists, delivering the circulation pipe into the storage groove of the support plate, and stretching it on the surface of the support plate. We can install heating equipment,
It is easy to construct and can shorten the construction period and reduce costs. Furthermore, since the lower surface of the support plate is covered with a heat insulating material, it is possible to prevent the heat radiated from the circulation pipe from escaping to the underfloor area. In addition, since the bottom surface of the circulation pipe is in contact with the gold i* support plate, and the support plate is in close contact with the bottom surface of the flooring material, heat is not only radiated upward from the circulation pipe, but also heat is radiated downward from the circulation pipe. Heat is also guided to the flooring through the support plate, and the heat radiated from the circulation pipe is efficiently radiated into the room to provide floor heating. In addition, since the circulation pipe is housed in the storage groove of the support plate disposed between the joists, long circulation pipes can be installed continuously, and the number of pipe connection places can be reduced. Furthermore, since the circulation pipe is housed in a storage groove recessed on the top surface of the support plate, the circulation pipe is routed below the joists, allowing the flooring material to be placed almost directly on top of the joists. It is possible to eliminate a part of the difference in level from the floor surface of a room where a floor heating device is not installed.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view showing a first embodiment of the present invention, FIG. 2 is an overall perspective view of the same support plate, and FIG. 3 is a sectional view showing the flange portion of the support plate in a second embodiment of the present invention. FIG. 4 is a partially cutaway plan view showing the connection structure between flanges, FIG. 5 is a perspective view showing a third embodiment of the present invention, and FIG. 6 is a support plate for the flanges. 7 and 8 are front views showing the manufacturing process of the fourth embodiment of the present invention, and Figure 9 is a perspective view showing the third embodiment of the present invention. @10 The figure is an explanatory diagram of the same action as above, and Figure 11 (, ) (
b) is a perspective view and an enlarged sectional view of the conventional example, and Fig. 12 (
a) is a partially cutaway perspective view of another conventional example; FIG. 12(b)
) is a partially cutaway perspective view of yet another conventional example. 1... Insulation material 2... Support plate 3... Flange piece 4... Joist 5... Storage groove 6... Circulation pipe 7... Floor material Figure 4 Figure 6 Figure 7 Figure 9 Figure 1Q Figure 11 (a) (b) Figure 12 (a) (b) Procedural amendment (voluntary) August 8, 1985 1, Indication of case 1985 Patent M No. 148486 2. Name of the invention Floor heating device 3. Relationship with the person making the amendment Patent applicant address 1048 Kadoma, Kadoma City, Osaka Prefecture Name (58
3) Matsushita Electric Works Co., Ltd. Representative Sadao Fujii 4, agent postal code 530 5, date of amendment order 1] Delete “attached” in the first line of page 7 of the specification of the application, and read “ We will insert "attached". 2] In lines 4 and 5 of page 12 of the above, "Figure 6 is the same" will be deleted and "Figure 6 is the same as above" will be inserted.

Claims (6)

[Claims] (1) Extend flange pieces on both sides of a metal support plate with heat insulating material pasted on the bottom surface, place the flange pieces on the top of the joists, support the support plate between the joists, and place the flange pieces on the top of the support plate. We delivered a circulation pipe that circulates the heat medium in a storage groove recessed in the
A floor heating device characterized by comprising a flooring material placed in close contact with the surface of a support plate. (2) A floor heating device according to claim 1, characterized in that the supporting plate is fixed by having sharp claw pieces protrude from the lower surface of the flange piece and biting into the upper surface of the joist. . (3) The above-mentioned flange piece is provided with recesses and protrusions that can be fitted in the recesses and protrusions at both ends thereof, and the recesses and the protrusions of the flange pieces of adjacent support plates are fitted in the recesses and the protrusions to each other. The floor heating device according to item 1. (4) A patent characterized in that the above-mentioned heat insulating material is provided with recesses and protrusions on both end faces that can be fitted in a concave and convex manner, and the concave and convex portions of the heat insulating materials of adjacent support plates are made to fit in a convex and convex manner with each other. Claim 1
Underfloor heating equipment as described in section. (5) A patent claim characterized in that the support plate is bent upward by the curing shrinkage force during foam molding of the heat insulating material molded and adhered to the back surface of the metal support plate, and is brought into close contact with the lower surface of the flooring material. The floor heating device according to item 1 of the scope. (6) The floor heating device according to claim 1, characterized in that a large number of small holes are bored in the support plate, and a heat insulating material is integrally foam-molded on the lower surface of the support plate.