KR19980033159U - Furnace lamp shield - Google Patents

Abstract

The present invention proposes a furnace lamp lamp shield made of a metal block that can increase work capacity and heat transfer rate.

The present invention secures the fastening part and the lamp to the housing having the cooling chamber and secures the shield thereon so that light diffusion is restricted so that the light is emitted in a state suitable for the furnace, the shield is formed into a metal block and the slits thereof. Make the wits varying in width for each part.

Accordingly, the present invention allows the heat of the lamp to be discharged through the cooling chamber and at the same time, the heat of the lamp applied to the shield can be moved to the cooling chamber through the fastening part, and the heat capacity of the shield itself is increased to prevent overheating. . Therefore, the thermal deformation of the shield can be minimized and light leakage can be prevented to provide a good furnace condition.

Description

Furnace lamp shield

1 is an exploded perspective view showing the overall structure of a conventional furnace lamp lamp assembly.

Figure 2 is an exploded perspective view showing the overall structure of the furnace lamp lamp assembly according to the present invention.

3 is a plan view showing a state in which the furnace lamp lamp shield is assembled according to the present invention.

4 is a longitudinal sectional view for explaining the slit operation of the lamp shield according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: Cooling chamber 2: Lamp insertion hole

3: Housing 4: Lamp

5: fastening part 6: sheet

7: Slit 8: Shield

The present invention relates to a shield of a lamp installed inside a furnace, and more particularly, to a shield for limiting the diffusion of lamp light used for the furnace during black coating and screen coating processes.

1 is an exploded perspective view showing the overall structure of a lamp assembly installed in a conventional furnace light stand.

As can be seen, the conventional furnace lamp lamp assembly is largely comprised of a lamp housing, a coupling portion coupled to the lamp and a shield having a slit, and a cover.

The light emitted from the lamp installed in the conventional furnace luminaire is limited to diffusion by the shield's slit and directed in one direction. The lamp is assembled to the housing and the fastening part, and the cooling chamber is installed inside the housing to discharge the high heat emitted from the lamp by the coolant, but the high heat spreading upward is applied to the shield as it is. Deformation causes irregular light diffusion and even light leakage, resulting in low light failure.

In view of the above-described conventional problems, a first object of the present invention is to provide a furnace lamp lamp shield that can increase the heat capacity of the shield fixed above the lamp housing.

In addition, a second object of the present invention is to provide a furnace lamp lamp shield in which the light diffusion intensity at the furnace light position is uniform.

In order to achieve the above-mentioned first object, the present invention is a well-known one including a housing in which a cooling chamber is built and a lamp insertion hole is coupled to a center of the housing so that the lamp is stably installed. The present invention proposes a furnace lamp lamp shield which is formed with a recessed sheet, and is provided with a shield having a slits penetrating up and down in the center.

In addition, the present invention proposes a furnace lamp lamp shield formed by a failure type in which the width of the slits formed in the center of the shield gradually expands from the center to achieve the second object.

By the above-described configuration, the present invention significantly increases the heat capacity of the shield and at the same time, the heat diffusion to the fastening portion and the housing is effectively performed, so that the shield is not easily thermally deformed by the high heat emitted from the lamp, and thus prevents light leakage. It is possible to improve the furnace quality by securing a stable light diffusion state.

In addition, the present invention is differentiated in the width formed in the center of the shield, even though the distance between the lamp and the shield slits is uniform light diffusion at the furnace location provides an effect that can further improve the furnace quality. .

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

2 shows a lamp assembly with a shield 8 according to the present invention in a separate perspective view.

As can be seen from the above, the present invention has a housing 3 having a cooling chamber 1 embedded therein and having a lamp insertion hole 2, and a lamp 4 that is stably coupled to the center of the housing 3. A shield provided with a fastening portion 5 having a seat 6 to be fixed, and a slit 7 fixed to the seat 6 of the fastening portion 5 and formed of a metal block and penetrated vertically through the center ( 8) and a cover 9 for covering the shield 8 with a through hole 10 in the center thereof.

According to the present invention, the lamp 4 is fixed by inserting the lamp 4 into the insertion hole 2 of the housing 3 to penetrate the fastening part 5, and circulate the cooling water therein. .

When the power is applied to the lamp 4 in such a state, the light of the lamp 4 passes through the slits 7 of the shield 8 to reach the light emitting position so that the light during the screen coating or black coating process can be performed. Will be.

That is, in the present invention, the light generated when power is applied to the lamp 4 is diffused through the slits 7 of the shield 8, and the heat generated at this time is basically the fastening part 5 and It is delivered to the housing 3 to heat the cooling water of the cooling chamber 1, and heat is discharged as the cooling water is circulated and discharged.

In addition, since the heat applied to the shield 8 is that the shield 8 itself is made of a metal block, since the heat capacity is large, it is possible to prevent overheating, as well as a shield in which the contact area with the fastening part 5 is in the conventional plate shape. Since it is increased compared with (8), since the heat of the shield 8 moves to the fastening part 5 and the housing 3, the shield 8 can be prevented from overheating.

Therefore, the thermal deformation of the shield 8 can be suppressed, and thus, a stable light diffusion state can be maintained, and light leakage can be prevented.

In addition, the present invention, as shown in FIG. 3, the width of the slit 7 for each part in order to prevent light diffusion roughness unevenness at the light emitting position due to the partial irregularity between the lamp 4 and the slit 7. Differentiated.

That is, the present invention has the highest illuminance of light at the center of the slits 7 closest to the lamp 4 as shown in FIG. 4 and the distance from the lamp 4 at both ends of the slits 7 In order to compensate for this, in the present design, the light diffusion intensity in the furnace can be uniformed by compensating by varying the width of each part.

That is, in the present design, the center width of the shield slits 7 is narrowed and gradually widened toward both ends, so that the illuminance of the light diffused from the slits 7 is uniform for each part. Since the illuminance becomes uniform, it is possible to improve the furnace quality.

Claims (2)

It consists of a housing (3) with a cooling chamber (1) built-in and having a lamp insertion hole (2), and a fastening portion (5) coupled to the center of the housing (3) to stably install the lamp (4). In the known one, it is provided with the fastening part 5 which formed the recessed sheet 6, and the shield 8 which has the slits 7 penetrated up and down in the center by a metal block to this, It is characterized by the above-mentioned. Furnace lamp shield. The method of claim 1, The lamp lamp shield, characterized in that the width of the slits (7) formed in the center of the shield (8) is formed in a failure type gradually extending from the center.