KR20030097172A - A Manufacturing Apparatus of Glass Bottle - Google Patents

Abstract

PURPOSE: An apparatus for making a glass bottle is provided to prevent the cracking inside of a hollow glass product, to reduce the thickness of the glass product, and to improve the durability of the product and production efficiency. CONSTITUTION: The apparatus for making a glass bottle comprises a main pipe line for introducing air, a control valve for the air introduced in the main pipe line, a pressure controller for the air, a valve block for separating the air, a plunger reciprocated by the separated air and a connection pipe for introducing air through a blow head. The apparatus is characterized by further comprising: a main body(10) connected to the connection pipe between the pressure controller and the valve block, in which a flow-in pipe(11) is connected at the bottom and a flow-out pipe(12) is connected at the top, and equipped with a hopper(13) disposed at the bottom, a drain plug(14) disposed at the downstream of the hopper and a cover(15) disposed at the top; an air guide part disposed in the main body and having an air guide pipe formed of helical air guide pieces(21); and a filter(30) disposed at the upper part of the air guide part, which is rotated along the air guide pieces and purifies the air guided upwardly to be discharged from the flow-out pipe(12).

Description

A manufacturing apparatus of glass bottle

The present invention relates to a glass bottle manufacturing apparatus, in particular to remove impurities and moisture in the air introduced through the plunger of the glass bottle manufacturing apparatus for manufacturing the glass bottle through the air pressure of the nozzle inserted to drive the plunger without pressure loss The present invention relates to a glass bottle manufacturing apparatus capable of quickly inserting and withdrawing and preventing the nozzle from being oxidized due to impurities, as well as making the glass bottle thin.

Generally, the glass molding method is largely classified into a blowing molding method, a pressing molding method, and a casting molding method. The molding method is manufactured by injecting a glass product (Gob) into a mold. .

The glass product as described above makes the molten glass in a direct or indirect heating method using heavy oil or electricity to the glass raw material blend.

In order to manufacture hollow glass products, such as glass bottles, in the molten glass, the above blow molding method is used.

A typical example of a glass bottle manufacturing apparatus manufactured using the above blow molding method is shown in FIG. 1.]

In Fig. 1, reference numeral 1 denotes a main pipeline, 2 denotes an intermittent valve, 3 denotes a pressure regulator, 4 denotes a valve block, 5 denotes a plunger, 6 denotes a blowhead, and 7 denotes a nozzle.

As shown in the related art, the bottle manufacturing apparatus according to the related art introduces an intermittent valve (2) into a pipe connected to the main pipe air line (1) so that air is introduced through the main pipe air line (1) and the air is interrupted. Forming and forming a pressure regulator (3) in the pipe introduced through the intermittent valve (2) to adjust the pressure of the air flowing in to form a glass bottle by separating the pressure air introduced through the pressure regulator (3) A valve block 4 so as to allow air to flow into the nozzle 7 through the blowhead 6 through the plunger 5 which is lifted and lowered by the pressure of air dispersed in the angle through the valve block 4. And a hollow glass product is formed in the mold.

However, as described above, defects occur on the inner surface of the hollow glass product due to moisture or impurities contained in the air flowing through the nozzle, which affects the hollow glass product, which is the final product. There was a problem with breakage.

In addition, in order to prevent damage to the product due to such impurities, the thickness of the hollow glass product has to be thickened, so the raw materials are consumed a lot, and the nozzle inserted to transfer the air pressure to form the hollow glass product also has impurities or moisture. There was a problem that occurs due to oxidation.

Therefore, the present invention has been made in view of the problems of the prior art as described above to remove impurities in the air flowing through the nozzle to prevent cracking inside the hollow glass product to reduce the defective rate and at the same time reduce the thickness of the hollow glass product The purpose of the present invention is to provide a glass bottle manufacturing apparatus that can reduce the number of hollow glass products with a small amount of raw material and prevent oxidation of the nozzle due to impurities or moisture by inserting the nozzle into a hot glass product.

In order to achieve the above object, the present invention provides a main pipeline for introducing air, an intermittent valve for regulating the air introduced from the main pipeline, and a pressure regulator for adjusting the pressure of air introduced through the intermittent valve. And a valve block for separating the air introduced through the pressure regulator, a plunger in which the air separated from the valve block is introduced to perform a piston movement, and reciprocating the nozzle through the blowhead through the reciprocating motion of the plunger. In the glass bottle manufacturing apparatus connected to the connecting pipe so as to inflow, the connection pipe between the pressure regulator and the valve block is connected, but the inlet pipe is connected to the outlet pipe to the upper side and the lower end to form a hopper portion and the hopper The lower part of the part forms a drain plug and the upper part forms a cover part, An air induction part including an air induction pipe formed by spirally forming an air induction piece with an outer diameter inside the body part and rotated along the air induction piece of the air induction part to purify the air guided upwards to be discharged by an outflow pipe. Provided is a glass bottle manufacturing apparatus comprising a filter portion formed on the upper side of the air induction portion.

1 is a schematic view showing a conventional glass bottle manufacturing apparatus,

2 is a schematic view showing a glass bottle manufacturing apparatus according to the present invention,

Figure 3 is a flow chart showing the air pressure flow state of the glass bottle manufacturing apparatus according to the present invention

Figure 4 is a graph showing the time and position of the plunger of the glass bottle manufacturing apparatus according to the present invention.

<Description of Symbols for Main Parts of Drawings>

1: main air pipe 2: intermittent valve

3: pressure regulator 4: valve block

5: plunger 6: blowhead

7: nozzle 8: connecting pipe

10: body portion 11: inflow pipe

12: outflow pipe 13: hopper portion

14 drain plug 15 cover

20: air induction part 21: air induction flight

30: filter part

Hereinafter, a preferred embodiment of the present invention as described above with reference to the accompanying drawings in detail as follows.

2 is a schematic view showing the glass bottle manufacturing apparatus according to the present invention and Figure 3 is a flow chart showing the air pressure flow state of the glass bottle manufacturing apparatus according to the present invention.

As shown in the present invention, the glass bottle manufacturing apparatus of the present invention includes a main pipe line 1 for introducing air, an intermittent valve 2 for intermitting air introduced from the main pipe line 1, and the intermittent valve ( 2) a pressure regulator 3 for adjusting the pressure of the air introduced through the valve, a valve block 4 for separately supplying the air introduced through the pressure regulator 3, and a separation from the valve block 4; Air is introduced into the plunger (5) for the piston movement, and the reciprocating motion of the plunger (5) is connected to the connecting pipe (8) to reciprocate the nozzle (7) through the blowhead (6) to introduce air In the glass bottle manufacturing apparatus, the body portion 10 is connected to the connection pipe 8 between the pressure regulator 3 and the valve block 4, but an inlet pipe 11 is provided below the body portion 10. The outlet pipe 12 is connected to the upper side to form a lower side of the body portion 10 The hopper 13 is formed, and the drain plug 14 is formed under the hopper 13 to discharge when moisture and impurities contained in the air are separated. (15) is formed.

The air induction part 20 is formed inside the body portion 10 formed as described above so as to rotate the air introduced through the inflow pipe 11 and move upwards, but the outer diameter of the air induction part 20 has a spiral shape. The air guide piece 21 is formed.

The filter unit 30 is rotated along the air induction piece 21 of the air induction part 20 to purge the air guided upward and flow out of the air induction part 20 so as to flow out of the outflow pipe 12. The filter unit 30 is preferably formed in a cylindrical shape.

Referring to the operation and effects of the present invention configured as described above are as follows.

First, in order to make hollow glass products, an intermittent valve 2 is formed in a pipe connected to the main pipe air line 1 so that air is introduced through the main pipe air line 1 and the air flow is intermittent.

A pressure regulator (3) is formed on the pipe introduced through the intermittent valve (2) to adjust the pressure of the inlet air, and the valve is formed to separate the pressure air introduced through the pressure regulator (3) to produce a glass bottle. The air is introduced into the nozzle 7 through the blowhead 6 through the plunger 5 which is formed by the block 4 and is lowered by the pressure of the air dispersed in the angle through the valve block 4. In order to form a hollow glass product in the air inlet air formed through the pressure regulator (3) to remove the moisture and impurities contained in the inlet air in the body portion (10) ( Along with the air induction piece 21 of 20) while rising at a high speed to remove moisture in the air to fall to the lower side, impurities contained in the rising air is purified through the filter unit 30 As it flows out through the outlet pipe 12 and passes through the valve block 4, it is separated into each plunger 5 and flows out through the nozzle 7 to form a hollow glass product.

The impurities and moisture dropped in this way may be discharged through the drain plug 14 formed in the body portion 10.

The glass bottle manufacturing apparatus as described above has a pressure loss due to impurities contained in the air, as shown in the P2 graph of the conventional glass bottle manufacturing apparatus, as shown in the graph of FIG. There was a problem of prolonging the time of forming the top of the nozzle and causing the nozzle to bleed out the oxidation of the nozzle by letting out the air containing impurities in a high temperature state. As described above, while reducing the time located at the top dead center, the work is moved to the bottom dead center immediately after the operation, and the air supplied through the nozzle does not contain impurities, thereby preventing oxidation of the nozzle.

As described above, the present invention removes impurities in the air introduced through the nozzle to prevent cracking inside the hollow glass product, thereby lowering the defective rate and at the same time reducing the thickness of the hollow glass product. It can produce and prevent the nozzle inserted into hot glass product from being oxidized by impurities or moisture, thereby increasing the durability and efficiency of the product.

In the above, the present invention has been illustrated and described by way of specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

Claims (1)

A main pipe line for introducing air, an intermittent valve for regulating the air introduced from the main pipe line, a pressure regulator for regulating the pressure of air introduced through the intermittent valve, and air introduced through the pressure regulator Valve bottle for separating each, the air separated from the valve block is introduced into the plunger to the piston movement, and the glass bottle is connected by a connecting pipe to inflow air to reciprocate the nozzle through the blowhead in the reciprocating motion of the plunger In the apparatus, It is connected to the connection pipe between the pressure regulator and the valve block, the inlet pipe is connected to the outlet pipe to the upper side, the lower end to form the hopper portion, the lower side to form the drain plug and the upper side to form a cover One body, An air induction part including an air induction pipe having an air guide piece formed in a spiral with an outer diameter inside the body part; The glass bottle manufacturing apparatus, characterized in that consisting of a filter unit formed on the upper side of the air induction unit to be rotated along the air induction section of the air induction unit and purged the air guided to the upper side to flow out of the outflow pipe.