JPS5833662Y2 - Far infrared heating device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a far-infrared heating device that can achieve high copper efficiency by reducing heat capacity as much as possible.

Far-infrared heating in which a substance that can be opened by far-infrared rays, such as Fe20s, is applied to the surface of a metal substrate, etc., and the far-infrared rays are opened from the surface by receiving heating input from a heater placed on the back of the substrate. Devices are known in various forms, but according to these conventional devices, when incorporating a heater as a heating source, it is necessary to support the heater with an insulator and place it on the back surface of the substrate. Because it is a basic device, it is always difficult to reduce the weight of the entire device below a certain level due to various constraints, and as a result, the heat capacity of the device increases, which increases the heater input. Furthermore, the far-infrared heating element deteriorates, impeding its practicality as an economical heating device.

The present invention achieves a reduction in the weight and heat capacity of the device by improving the support means for the heater, which was a drawback of the conventional device, and thus provides a low-cost device with good copper efficiency. The main purpose of this device is to provide a far-infrared heating device, and its feature is that, as shown in FIG. 1, Fe2O3,
A far-infrared ray heating element 2 is formed by coating and baking a far-infrared copper material 2 such as SiC9MnO2 or Zr2O3, and forming a heat-resistant electrical insulating layer 3 such as alumina Al2O3 on the back surface of the substrate 1. As shown in FIG. 2, the far-infrared heating element having a flat three-layer structure is placed in an outer casing 9 via a heater 4 and a heat-insulating material 5.
It is configured to be installed in

As shown in the figure, since the heater 4 can apply heating input to the far-infrared unsealing material 2 while facing and in direct contact with the heat-resistant electrical insulating layer 3, the heater 4 can be insulated with an insulator or separated from the substrate 1. Compared to the conventional method of arranging the heaters 4 at a predetermined distance apart, it is possible to provide a heating tool in which the insulating means of the heater 4 is configured more simply and the thermal resistance therebetween is suppressed to a minimum.

The heater 4 and the highly heat-insulating insulator 5 can be made lightweight and incorporated into the outer casing 9 together with the heating element using an appropriate number of support wires 6 fixed to the substrate 1, thereby reducing the overall heat capacity. It is possible to manufacture a highly efficient heating tool with excellent temperature rise characteristics on the heating surface by reducing as much as possible.

Reference numeral 8 indicates a power supply line for the heater 4 led out of the outer casing 9 via the insulator tube 7.

As mentioned above, the far-infrared heating device of the present invention heats a far-infrared heating element made by coating a far-infrared unsealing substance on one side of a metal substrate and forming a thin heat-resistant electrical insulation layer on the other side. The heating element is characterized in that the heater is arranged in direct contact with the insulating layer, the insulating means is simplified, and the component structure related to the heating source is made into a structure with as small a heat capacity as possible, This makes it possible to obtain a heating tool with low input power and high copper efficiency at a low cost, while extending the life of the heater and making it applicable to high-temperature heating means.

In addition, as shown in the illustrated embodiment, this heating device can be configured into a unit of fixed dimensions, and an appropriate number of devices can be arbitrarily arranged on the required heating surface to easily achieve the desired temperature distribution. It provides various effects.

[Brief explanation of the drawing]

FIG. 1 is a conceptual diagram of a far-infrared heating element, and FIG. 2 is a partially sectional perspective view of a far-infrared heating device of the present invention constructed using the element shown in FIG. DESCRIPTION OF SYMBOLS 1...Substrate, 2...Far-infrared heating element, 3...Heat-resistant electric insulating layer, 4...Heating heater, 5...・・Heat-insulating material, 6・・・・
...Support wire, 8...Feed line, 9...
・Outer casing.

Claims (1)

[Scope of utility model registration request] It has a far-infrared edge heating element formed by coating a far-infrared opening substance on one side of a metal substrate and forming a thin heat-resistant electric insulating layer on the other side, and a heater for heating when brought into contact with the heat-resistant electric insulating layer. A far-infrared heating device configured to support the above-mentioned far-infrared heating element in an outer casing via a heat-insulating insulator.