JPS6318097B2 - - Google Patents

Abstract

PURPOSE:To bury a heat exchanger pipe in an upper surface of a heat insulating base material in such a way as it shows a zig-zag form, arrange a metallic heat radiating plate and a back plate on both the upper and lower surfaces of the base material so as to make an integral assembly thereof and to form some connecting grooves around the circumferential sides thereof. CONSTITUTION:A heat insulating base material 1 is made of a thermo-adhesive foaming styrol and a heat exchanger pipe 2 bent and formed to have such a shape as corresponding to the pipe fitting grooves 6 is fitted and arranged in the grooves which are formed in advance on the upper surface of the base material. A plate-like metallic heater plate 3 and a back plate 4 formed by aluminum plate etc. are overlapped on both the upper and lower surfaces of the heat insulating base material 1 and then they are arranged in a forming die 7. Entire assembly is heated and pressurized from both the upper and lower surfaces thereof by a hotpress machine. Under this heating and pressurizing operation, the surfaces of the heat insulating base material 1 are thermally melted, their adhesive characteristics appear to cause the heat radiating plate 3 and the back plate 4 to be integrally connected to each other, and at the same time the heat exchanger pipe 2 is closely contacted with the lower surface of the heating plate 3. And under this thermal pressurizing operation, a secondary foaming part of the heat insulating base material 1 is flowed into the clearance to fill the space 9.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a floor heating panel, in particular, a heat exchange pipe such as a hot water circulation pipe or a heat pipe embedded in a heat insulating base material made of foamed synthetic resin, etc. The present invention relates to a method of manufacturing a floor heating panel having a structure in which the entire upper surface is covered with a metal heat sink and, if necessary, a back plate made of metal or the like is integrally bonded to the lower surface.

Conventionally, this type of floor heating panel has generally used particle board, foamed polyurethane, foamed polystyrene, etc. as a heat insulating base material. During construction, these panels are laid side by side on the subfloor, but if there is no interlocking means for joining adjacent panels,
Often, a step is likely to occur on the top surface. For this reason, it is preferable that a joining portion such as a joining groove or a protruding strip be formed on the circumferential side of the panel to realize actual joining or actual joining. However, in panels that use particle board as a heat insulating base material, the above-mentioned bonding grooves must be separately cut into each panel or the heat insulating base material through secondary processing, making production cumbersome. It was hot. In addition, in panels using foamed polyurethane or the like as a heat insulating base material, it is necessary to form a joint by separately attaching a grooved edge frame to the peripheral edge, which has the disadvantage of increasing costs.

In order to solve the above-mentioned problems, this invention manufactures a floor heating panel in which joining grooves can be formed on the circumferential surface of the heat insulating material at the same time as manufacturing the panel in which the constituent members are joined and integrated. The purpose of the present invention is to provide a method that uses especially heat-adhesive foamed polystyrene as the heat-insulating base material, and heat-pressing operations are performed to bond the heat dissipation plate, etc. on the top surface to this. The resulting secondary foaming phenomenon of the heat insulating base material, which is generally considered to be harmful, is effectively utilized to simultaneously form desired bonding grooves on the peripheral surface of the base material.

This will be explained in more detail below based on illustrated embodiments.

Example 1 This example is shown in Figures 1 to 5, and as shown in Figure 4 as a completed product, heat exchange pipes 2 are embedded in the upper surface of the heat insulating base material 1 in a meandering arrangement. A flat metal heat dissipation plate 3 and a back plate 4 are integrally bonded to the upper and lower surfaces of the heat insulating base material 1 in a superposed manner, and a bonding groove is formed around the entire circumference on the circumferential side of the heat insulating base material 1. The purpose is to manufacture a floor heating panel P in which 5 is formed.

In manufacturing the panel P, the heat insulating base material 1 is made of heat-adhesive styrene foam, and the first
As shown in the figure, a heat exchange pipe 2 made of copper, aluminum, or the like and bent into a corresponding shape is placed in a fitted state in a pipe fitting groove 6 previously cut on the upper surface thereof. Then, a flat metal heat sink 3 made of an aluminum plate or the like and a back plate 4 are stacked on both the upper and lower surfaces of the heat insulating base material 1 on which the heat exchange pipe 2 is set, and these are separately shaped into corresponding shapes as shown in FIG. It is placed in a molding frame 7 that is framed by a mold.

Here, the molding frame 7 used has a groove-forming protrusion 8 formed around the entire circumference at an intermediate height of its inner peripheral surface. Therefore, the heat insulating base material 1 has a formwork 7 inside the groove forming protrusion 8.
The dimension a is smaller than the inner dimension b of the formwork 7 so that it fits inside the mold. Note that it is desirable that the groove forming protrusions 8 be formed into a slightly tapered shape so that the panel can be easily removed from the mold after manufacturing.

After each panel component member 1, 2, 3, 4 is arranged in the molding frame 7 as described above, the whole is heated and pressed from both upper and lower surfaces as shown by arrow A in FIG. 2 using a hot press machine. Through this heat-pressure operation,
The surface of the heat insulating base material 1 made of styrofoam is thermally melted, develops adhesive properties, and is bonded and integrated with the heat dissipation plate 3 and back plate 4 on both the front and back surfaces, and the heat insulating base material 1
As the thickness of the heat exchange pipe 2 decreases, the heat sink plate 3
It is placed in close contact with the underside of the Furthermore, due to this heat-pressing operation, the heat-insulating base material 1 made of expanded polystyrene tends to cause secondary foaming in the heated region. This secondary foaming is prevented from progressing in the areas where it is suppressed by the heat dissipation plates 3 and the back plate 4 on both the front and back sides, but there are spaces above and below the groove-forming ridges 8 of the formwork 7 at the periphery. Since the portions 9, 9 exist, the secondary foaming proceeds toward these, and the secondary foaming portion of the heat insulating base material 1 enters and fills the space 9, as shown by arrow B in FIG.

Therefore, by removing the formwork 7 after completing the heat-pressing operation and cooling, it is possible to obtain the floor heating panel P as the desired product as shown in FIG. 4. .

When installing the floor heating panel P having the joining grooves 5 on the circumferential side, as shown in FIG. By inserting them together, they can be joined flush.

In the above heat-pressure operation, the heating temperature is about 120°C to 250°C, particularly preferably 150 to 180°C.
On the other hand, the pressure is about 0.1-2Kg/ ^cm2 , and the time is about
It is preferable to set the time in the range of about 0.5 to 5 minutes,
In addition, the rate of decrease in the thickness of the heat insulating base material 1 due to the heat pressure is approximately
It is preferable to set it to about 30%.

Embodiment 2 This embodiment is shown in FIGS. 6 to 9, and as seen in the state of the product in FIG. Bent edges 13a and 14a are formed, which further increases the strength, and
A floor heating panel P' is manufactured in which a joining groove 15 is formed only in the middle part in the length direction of each of the four circumferential sides.

When producing the floor heating panel P′, the heat insulating base material 11
As shown in FIG. 6, notches 11a are provided at the intermediate portions of the four circumferential side edges in the longitudinal direction, corresponding to the groove forming protrusions 18 on each inner surface of the forming form 17. Then, as shown in FIG. 7, this heat insulating base material 11 was placed in a molding frame 17 in a combined state with other panel components 12, 13, 14, and hereinafter described in Example 1. As in the case of , heat fusion bonding and formation of bonding grooves 15 by secondary foaming of the heat insulating base material 11 as shown in FIG. The desired floor heating panel P' product shown in FIG. 9 is obtained.

In addition, in carrying out this invention, the back plates 4 and 14 on the lower surface may be omitted.

According to the present invention, as described above, by using heat-adhesive foamed polystyrene as the heat-insulating base material and making it function as an adhesive, the heat sink on the surface can be joined together by a simple heat-pressing operation. Compared to the case where a separate adhesive is applied and the heat sink is bonded, the manufacturing process can be simplified and productivity can be improved. Of course, by the above-mentioned heat pressure operation that joins and integrates the heat sink to the heat insulating base material,
Utilizing the secondary foaming phenomenon of the heat insulating base material that occurs, it is possible to simultaneously create bonding grooves on the peripheral side of the panel, so the bonding grooves can be cut and formed separately through secondary processing. , compared to the case where a grooved joint edge frame is attached to the periphery of the panel, there is a remarkable effect that it is possible to obtain a floor heating panel with excellent joint characteristics during installation, which is even more advantageous in terms of productivity and cost. It is something that plays.

[Brief explanation of the drawing]

1 to 5 show a first embodiment of the present invention. FIG. 1 is a perspective view showing a panel component and a molding frame in a separated state, and FIG. 2 is a perspective view of a panel component. Figure 3 is a partial cross-sectional view showing how the bonding grooves are formed by secondary foaming of the heat-insulating base material during the heat-pressing process, and Figure 4 is the floor of the product. FIG. 5 is a partially cutaway perspective view of the heating panel, and is a cross-sectional view illustrating the joined state of the panel during use. Also, Figures 6 to 9
The drawings show a second embodiment of the present invention, and Fig. 6 is a perspective view equivalent to Fig. 1, and Fig. 7 shows the arrangement of panel components in a molding frame with the heat sink removed. FIG. 8 is a plan view showing the state, FIG. 8 is a sectional view corresponding to FIG. 3, and FIG. 9 is a partially cutaway perspective view of the floor heating panel of the product. P, P'... Floor heating panel, 1, 11... Heat insulation base material, 2, 12... Heat exchange pipe, 3, 13... Metal heat sink, 4, 14... Back plate, 5, 15... Joining groove, 7, 17... Formwork for forming, 8, 18... Groove forming protrusion.

Claims (1)

[Claims] 1. When stacking a metal heat sink on a heat-adhesive styrofoam heat-insulating base material with a heat exchange pipe fitted into its upper surface and fusing and bonding them together by heat-pressing, the heat-insulating base material is , by placing it in a molding form having groove-forming ridges on its inner circumferential surface and performing the above-mentioned heat-pressing operation, the upper and lower groove-forming ridges are formed by secondary foaming generated in the heat insulating base material. 1. A method for manufacturing a floor heating panel having a bonding groove, the method comprising: filling a space with a secondary foamed portion to form a bonding groove on a peripheral side surface.