KR200152497Y1 - An infrared ray light bulb - Google Patents

Abstract

The infrared heat bulb according to the present invention is upwardly open in the middle of the heat shield plate and forms a fixing groove of the upper and lower light type, and the end of the non-bar is melt-filled in the fixing groove so that the heat shield is fused and fixed to the end of the non-bar. It is easy to fix the hot plate, which improves productivity, reduces manpower, and enables automation.

Description

Infrared heat bulb

1 is an exploded perspective view of an infrared heat bulb according to an embodiment of the present invention.

Figure 2 is a cross-sectional view showing a coupling process of a ball-free bar and a heat shield plate according to an embodiment of the present invention

(a) is a cross-sectional view just before joining,

(b) is sectional drawing at the time of melt bonding.

Figure 3 is a cross-sectional view showing the coupling of the bar and the heat shield plate according to another embodiment of the present invention.

Figure 4 is a schematic cross-sectional view showing the installation state of the heat shield plate of the conventional infrared heat bulb.

* Explanation of symbols for main parts of the drawings

10: Base 11: Stem

12: no sealing 13: heat shield

14: fastening groove 15: slot

The present invention relates to an infrared heat bulb that radiates high heat energy, and is easy to attach and fix a heat shield plate to block heat energy rising from the bulb to the socket, thereby improving productivity, enabling automation, and reducing manpower. It relates to an infrared heat bulb.

In general, infrared light bulbs radiate heat energy of about 200 ° C., and are mainly used for partial heating of bathrooms, barns or home bathrooms. Therefore, since the infrared light bulb is used by downward lighting, the high-heat energy inside the bulb is moved to the upper part of the socket portion, and the stem, which is the glass supporting the filament, and the non-bong are melted, and the anchor planted in the non-bong is removed from the non-bong. As it is separated, the supporting function of the filament of the anchor is lost, which is the main cause of the disconnection of the filament, and the infrared heat bulb is frequently damaged. Therefore, to solve the problem of melting the stem and the rod-free rod, as shown in FIG. 4, an infrared heat lamp having a heat shield plate 3 made of a heat-resistant ceramic material between the rod-less rod 1 and the filament 2 has been proposed. . However, the infrared heat bulb is bent in a certain shape to the filament suspension anchor (4) to secure the heat shield plate (3) between the rod-less rod (1) and the filament (2) and the difference in the bent portion of the anchor Since the heat plate 3 is fixed, all of the bending work of the anchor 4 and the work of fixing the heat shield plate 3 to the bent anchor must be performed by hand, so that the workability of the heat shield plate is poor. Since manpower is required, there was a problem that the manufacturing cost is increased.

An object of the present invention is to solve such a problem, it is easy to fix the heat shield plate in the infrared heat bulb, the productivity is improved, the labor force is reduced and automation is possible to manufacture an infrared heat bulb that can be manufactured at low cost To provide.

The purpose of the present invention is to open up the middle of the heat shield plate and form a fixing groove of the upper and lower light type, and the end of the rod is melt-filled in the fixing groove so that the heat shield is fusion-fixed to the end of the rod-free infrared thermoelectric Achieved by a sphere.

With reference to the accompanying drawings, the infrared heat bulb according to the present invention will be clearly understood by the embodiments described in detail below.

Infrared thermoelectric bulb (a) according to the present invention, as shown in Figures 1 to 3, the difference in the end of the rod-less extension 12 in the stem (Stem, 11) of the lower portion of the base 10 The hot plate 13 is fused and fixed. In the middle of the heat shield plate 13 is formed a fixing groove 14 of the upper narrow down light type is closed downward and open upward. In this embodiment, although the shape of the fixing groove 14 is described as a top and bottom light type, since the process of inserting the unopened end portion in the molten state, other forms may be used as shown in FIG. In the state in which the lower end of the no-rod 12 is molten (shown in FIG. 2 (a)), the no-rod is inserted into the fixing groove 14 of the heat shield plate 13 and filled in the fixing groove and solidified. Since the end portion 12a has an upper and lower light shape in the same manner as that of the fixing groove (shown in FIG. 2B), the heat shield plate 13 is firmly fixed to the non-bar 12. The lead line 16 and the anchor pass through the plurality of slits 15 formed in the heat shield plate 13 to support the filament 18. Reference numeral 19 is a light bulb body.

Infrared thermoelectric bulb according to the present invention having the structure as described above is fused and fixed to the end of the rod-free bar, so there is no need to bend the anchor in a special form, the manufacturing process of the thermal bulb is simplified, and this fusion fixing operation can be automated The labor force can be drastically reduced, so that the cost can be reduced, and the heat shield plate is fixed to the end of the ball-free rod to fix the anchor planted at the end of the ball-free rod and the filament is installed by the anchor. It is designed to have an excellent effect such that the installation work becomes very easy and the workability is improved.

Claims (1)

In the heat bulb (a) in which the filament 18 is installed below the no-rod 12 extending downward from the stem 11 below the base 10, the bottom of the no-cavity 12 is closed downward and upward. Infrared thermoelectric bulb, characterized in that inserted into the fixing state in the fixing groove (14) of the heat shield plate (13) is opened and the fixing groove (14) of the upper and lower light.