JPH0452954Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Field of Application) The present invention relates to a support device for an infrared radiator used as a heating element in a kotatsu, for example.

(Prior Art) In a conventional device of this kind, a member for feeding power to a far-infrared radiator is constructed as a separate member from a member for supporting the far-infrared ray radiator.

(Problems to be Solved by the Invention) Therefore, the conventional device had the disadvantage that the number of parts and processing steps increased due to the provision of a dedicated power supply member.

(Means for Solving the Problems) The present invention attempts to provide a device that eliminates the above-mentioned disadvantages, in which a base plate is sandwiched between insulating spacers on both sides, and a power supply terminal is connected to these members at the tail end. A conductive bolt is passed through the conductive bolt, a conductive nut is screwed onto the tip side of the conductive bolt, a far infrared radiator is passed through the tip side of the conductive bolt that protrudes from the conductive nut, and a nut is screwed onto the tip of the conductive bolt. are screwed together to support the far-infrared radiator on the base plate, and power is supplied to the far-infrared radiator through the power supply terminal, the conductive bolt, and the conductive nut.

An elastic member was interposed between the base plate and each insulating spacer.

(Function) The present invention has the above-mentioned configuration. According to this, the bolt for supporting the far-infrared radiator on the base plate is constructed of a conductive bolt with a power supply terminal connected to the tail end. Since power is supplied to the far-infrared radiator through the conductive nut, a member dedicated to power supply is not required.

Furthermore, since the support device is provided with an elastic function by the elastic member, stress concentration on the support portion due to heat generated by the far-infrared radiator and impact caused by external force can be alleviated.

(Example) Next, an example of the present invention will be described based on the drawings.

1 to 5, reference numeral 1 indicates a far-infrared radiator made of ceramics, and the far-infrared radiator 1 has a radiation surface 1a made of a far-infrared radiating material, and a sintered silver paste on both sides of the back surface. A heat generating coating surface 1c having a pair of band-shaped electrode surfaces 1b, 1b made of material is formed.

The far-infrared radiator 1 is supported by a base plate 2 that serves as a reflector and a frame casing.
Specifically, the base plate 2 is sandwiched between insulating spacers 3 and 4 on the front side and the back side, a bolt 5 is passed through these members 2, 3, and 4, and a nut 6 is screwed onto the tip side of the bolt 5. The tip end portion of the bolt 5 protruding from the nut 6 is penetrated by the far infrared radiator 1,
The far-infrared radiator 1 was supported on the base plate 2 by screwing a nut 7 onto its tip.

Power is supplied to the far-infrared radiator 1 by constructing the bolt 5 and the nut 6 with conductive materials, and connecting the bolt 5 and the nut 6 from a power supply terminal 8 connected to the tail end of the conductive bolt 5. Both electrode surfaces 1b, 1
b. According to this, the heat-generating coating surface 1c, which is a resistive film existing between the electrode surfaces 1b, 1b, is energized and generates heat, and this heat causes far-infrared rays to be radiated upward from the heat-radiating surface 1a.

Incidentally, a cap 9 is fitted to the tip of the conductive bolt 5 for insulation.

Furthermore, in this embodiment, a wave spring 10 is interposed between the base plate 2 and each of the insulating spacers 3 and 4 to provide an elastic function to the supporting portion of the far-infrared radiator 1. This is intended to alleviate stress concentration on the support portion due to heat generation and impact caused by external force.

In the above embodiment, it is preferable that the gap between the base plate 2 and each of the insulating spacers 3 and 4 be approximately 0.3 to 1.5 mm.

Further, in the above embodiment, the elastic member is a corrugated sprung 10, but the elastic member is not limited to this.

(Effect of the invention) As described above, according to the invention, the member supporting the far-infrared radiator also serves as the member feeding power to the far-infrared radiator, so the support member and the power supply member are constituted by separate members. It has the effect of reducing the number of parts and processing steps compared to the conventional type mentioned above, and since the support member has an elastic function, stress concentration on the support part due to heat generated by the far-infrared radiator and impact due to external force can be avoided. can be alleviated.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing an example of implementation of the proposed device;
Figure 2 is a side view of the main parts, Figure 3 is an exploded view of the main parts, Figure 4 is a perspective view of the far-infrared radiator as seen from the front side, and Figure 5 is the infrared radiator from the back side. FIG. 6 is a perspective view of the far-infrared radiator as seen from the front side. 1... Far-infrared radiator, 2... Base plate, 3, 4...
... Insulating spacer, 5 ... Conductive bolt, 6 ... Conductive nut, 7 ... Nut, 8 ... Power supply end, 10
...Wave spring (elastic member).

Claims (1)

[Claims for Utility Model Registration] 1. A base plate is sandwiched between insulating spacers on both sides, a conductive bolt with a power supply terminal connected at the tail end is passed through these members, and a conductive nut is screwed onto the tip side of the conductive bolt. Further, the far-infrared radiator is made to penetrate through the distal end portion of the conductive bolt that protrudes from the conductive nut, and a nut is screwed to the tip of the bolt to support the far-infrared radiator on the base plate. A support device for a far-infrared radiator, characterized in that power is supplied to the far-infrared radiator through a power supply terminal, the conductive bolt, and the conductive nut. 2. The device for supporting a far-infrared radiator according to claim 1, further comprising an elastic member interposed between the base plate and each insulating spacer.