KR0127692Y1 - Device for supplying raw material for glass - Google Patents

Abstract

In the batch B of the glass raw material feeder, the raw materials supplied to the hopper 50 in the form of agglomerates by moisture are introduced into the melting furnace to cause a malfunction of the melting furnace, and also to a difference in the dissolution rate with the non-lumpy raw materials. In order to prevent the quality of the molten glass from being deteriorated, the inlet 56 of the hopper 50 so as to separate the raw material supplied to the hopper 50 in the form of a mass in batch B into a volume suitable for melting in the melting furnace. By installing a plurality of separation members (1) extending to the outlet 57 in the configuration so that the raw material can be separated into a constant volume it is possible to prevent the malfunction of the melting furnace.

Description

Glass raw material feeder

1 is a cross-sectional view showing the hopper of the glass raw material supply apparatus according to the present invention.

2 is a side view of FIG.

3 is a side view showing a typical glass raw material feeding device.

* Explanation of symbols for main parts of the drawings

1: Separation member

The present invention relates to a glass raw material supply device, and more specifically, glass cathode material for the cathode ray tube aggregated by moisture during storage in a batch to form agglomerates, and the agglomerated raw material is introduced into the melting furnace to make the melting rate of the melting furnace unstable. The present invention relates to a glass raw material supply device capable of preventing degradation of the quality of a molten glass in which raw materials are melted.

In general, a cathode ray tube is a panel in which not only a shadow mask is attached but also a fluorescent film is applied, and a panel is combined with the panel to form a bulb and a deflection yoke is installed in the neck and an electron tube is installed inside. As configured, the panel and the channel are each molded and combined with frit.

Here, the panel and the channel are formed by melting the raw material of the glass material in the melting furnace to form a highly viscous molten glass, and put it into a mold by a predetermined amount and press.

At this time, the raw material is dropped into the hopper 50 of the raw material supply device in the state of being loaded in the batch (B) as shown in Figure 3 and the raw material supply device is a melting furnace for a predetermined amount of raw material at a predetermined interval Transfer to (not shown) will be able to maintain a constant melting capacity of the melting furnace.

The above-mentioned raw material supply apparatus supports the hopper 50 which receives a raw material in the batch B, and the support 52 which supports the said hopper 50, and is provided so that the pusher 51 can slide in a horizontal direction. And a driving means such as a motor 53 for reciprocating horizontally moving the pusher 51 with a cam (not shown) attached to the base plate 55 provided with the roller 54 on the bottom.

Here, when the operation of the raw material supply device described above, the pusher 51 slidably installed on the support 52 cuts off the raw material supplied to the hopper 50 in the batch B from the bottom to supply the raw material to the melting furnace. When the raw material is supplied to the melting furnace in the stopped state, the motor 53 connected to the pusher 51 is operated so that when the pusher 51 moves backward, the raw material is supplied downward while the pusher 51 is opened by the weight of the raw material. do.

Then, when a predetermined amount of raw material is supplied, the pusher 51 blocks the raw material so that only a predetermined amount of raw material is supplied to the melting furnace.

However, when the raw material supplied from the batch (B) is supplied to the melting furnace through the hopper 50 as described above, the raw material of the glass material is agglomerated by moisture, so that the mass of a predetermined volume As a result, the raw material in the form of agglomerate is supplied to the melting furnace. As the raw material in the melting furnace melts the agglomerate raw material, it becomes difficult to melt the agglomerate raw material due to the difference in melting rate with the non-lumpy raw material. There was a problem that the quality of the degradation.

Therefore, the object of the present invention is that the raw materials supplied to the hopper in the form of agglomerates by moisture in the arrangement of the glass raw material feeder are introduced into the smelting furnace, resulting in a malfunction of the smelting furnace and a dissolution rate difference with the non-lumpy raw materials. The present invention provides a glass raw material supply device capable of preventing the quality of the molten glass from deteriorating.

In order to achieve the above object, the present invention provides a plurality of separation members extending from the inlet to the outlet of the hopper so that the raw material supplied to the hopper in a batch in a batch can be separated into a volume suitable for melting in the furnace. Characterized in that configured to be separated into a constant volume.

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings.

1 is a cross-sectional view showing a hopper of the glass raw material supply apparatus according to the present invention, the separation member 1 is embedded so as to extend from the inlet 56 of the hopper 50 to the outlet 57 of the hopper 50. .

When the raw material is supplied to the hopper 50 in the batch (B), the raw material is separated by a predetermined volume by the separating member 1 and the raw materials separated by moisture are agglomerated and maintained in a predetermined shape.

Of course, since the separation member 1 of FIG. 2 is formed in a tapered shape having a sharp upper portion and a wide lower portion as shown in FIG. 2, the aggregated lump-shaped raw materials are also easily separated into a predetermined shape.

In addition, as the raw material separated by the separating member 1 is lowered, the distance d1 and d2 between the separating members 1 becomes narrower, so that a constant volume of raw material is compressed to maintain a constant shape as described above. .

At this time, the pusher 51 connected to the motor 53 is located in the lower portion of the hopper 50 so that the raw material stored in the hopper 50 is not supplied to the melting furnace. The raw material which maintains a fixed shape in the separated state falls and is conveyed to a melting furnace.

Of course, the separating member 1 is provided with a plurality of adjusting the interval (d ₁ , d ₂ ) so that the volume of the raw material introduced into the melting furnace is in an appropriate state.

As described above, the present invention provides a plurality of tapered separation members in the hopper to separate the agglomerate raw material supplied in the batch into a predetermined shape, and to compress it to be kept in a predetermined shape, thereby becoming a constant volume when the melting furnace is put into operation, and the operation of the melting furnace is poor. There is an advantage that can prevent the deterioration and at the same time prevent the deterioration of the molten glass.

Claims (1)

In the glass raw material supply apparatus provided with the hopper 50 which raw material is supplied in the batch B where raw material is stored, the taper type separating member 1 is inserted into the said hopper 50, and the inlet opening 56 of the hopper 50 is carried out. Glass raw material supply apparatus characterized in that a plurality of at a predetermined interval (d1, d2) installed so as to extend from the outlet (57).