JPH0630816Y2 - Lubricant application device for glass molds - Google Patents

Description

[Detailed Description of the Invention] [Industrial field of application] The present invention relates to a lubricating liquid application device for a glass mold,
In particular, it relates to an apparatus for applying a lubricating liquid to the mold surface of a glass bottle molding die.

[Conventional technology]

A glass bottle is usually manufactured by blowing or pressing a rough mold with a bottle making machine to form a parison from a molten glass gob (GOB), and then transferring the parison to a finishing mold for blow molding. To be done.

Next, a conventional glass bottle molding process by blow molding will be described with reference to FIG.

Fig. 5 shows the positional relationship of each mold in the bottle making machine. Since the bottle making machine is for double gob, there are two identical parts in one section, which are distinguished by marking the symbols A and B. This will be explained by doing.

In FIG. 5 (a), reference numeral 2 (distinguished by 2A and 2B in the figure) is a rough type, and is composed of a pair of half-divided types. Reference numeral 10 is a funnel, 11 is a lower mouth type, 12 is a plunger, and 13 is a baffle.

With the rough mold 2A closed and the baffle 13A escaping upward from the funnel 10A, the molten glass gob becomes the funnel 10.
After being inserted into the rough mold 2A through A, the baffle 13A descends so as to close the upper part of the funnel 10A as shown in FIG. 5 (a), and in this state, the air introduction hole 1
Compressed air is introduced into the rough mold 2A from 3o, and the gob 20A
Is in close contact with the inner surface of the rough mold 2A, the inner surface of the lower mouth mold 11A and the outer surface of the head of the plunger 12A to form a bottle mouth.

Next, after the baffle 13 and the funnel 10 have risen and escaped, the baffle 13 descends again to close the upper surface of the rough mold 2 and the plunger 12 slightly descends, so that the rough mold 2B and the baffle shown in FIG. 13B and the plunger 12B, the compressed air is introduced from the air introduction hole 12o to expand the gob 20A and the parison 21 in this state.
B is formed. Then, the baffle 13 is removed, the rough mold 2 made of a half mold is opened, and the mouth mold holder 16 incorporated in this mechanism by the operation of the invert mechanism 15 is moved to the parison 20.
180 while holding the lower mouth mold 11 holding A and 21B
The parison 21 is rotated to transfer the parison 21 to the finishing die 17 which is composed of a pair of split dies and is in an open state, and the invert operation is completed.

Next, the finishing die 17 is closed, and this state is shown by the positional relationship between the finishing die 17B, the parison 22B, and the mouth die 11B in FIG. 5 (b). After this, the mouth die 11 on the top of the finishing die 17 is opened, and the parison 22B slightly falls to the position shown in the parison 22A. The finishing die 17 can be opened and closed, but the bottom die 19 is always in a fixed position. After that, the invert mechanism 15 performs a revert operation which is the opposite operation to the above operation, the die holder 16 and the die 11 are returned to the position of the rough mold 2 in the open state, and the rough mold 2 is closed again for the next molding step. Prepare

On the other hand, in the finishing die 17, the blow head 18 descends to close the upper portion of the finishing die 17, and this state
A, blowhead 18A and parison 22A. Thereafter, compressed air is supplied into the finishing die 17A through the opening 18o of the blow head 18A, and the parison 22A expands from this state along the inner surface shape formed by the finishing die 17A and the bottom die 19. And blow head 18A
Rises and the finishing die 17A opens, and the take-out device (not shown)
Then, the bottle mouth part is held and taken out from the finishing die 17A, and the glass bottle forming step is completed.

However, the conventional mold for glass bottles is entirely formed of a metal such as cast iron, and the lubricity between the glass and the mold is poor, so that the gob slides into the mold during the molding process. At the time of opening a molding die consisting of a pair of split dies, there is a defect that lubricity and releasability (separation of the glass bottle from the die) are poor and minute cracks (creases) and wrinkles occur in the bottle. . In order to prevent such defects, oiling (for example, applying a lubricant in which powder graphite is dispersed in an oily liquid) is manually applied to the inner surface of the molding die. Therefore, it is necessary to secure personnel for oiling work, and there is a problem that it is difficult to completely remove defects such as wrinkles and wrinkles due to individual differences in oiling by hand. ,
Various attempts have been made to provide a lubricating liquid coating device to automate the oil coating operation. For example, as a typical conventional one, Japanese Patent Publication No. 38-33430 and Japanese Patent Laid-Open No. 48-2981.
2, JP-A-60-46935, JP-B-51-220.
05, JP-A-48-34914 and JP-A-60-
As disclosed in Japanese Patent No. 171242, a device for incorporating a spraying device into a funnel or a baffle, stopping the supply of a gob in a state where a rough mold is closed, and spraying lubricating oil from above by the spraying device. As shown in No. 6, a device for spraying with the rough mold open, and for the mouth oil coating, a device for applying the mouth mold in combination with the rough mold by the device and a separate nozzle for the mouth mold There is a device provided.

[Problems to be solved by the invention]

However, the device for spraying the lubricating liquid from above in the closed state of the rough mold like the above-mentioned device has an advantage that one nozzle is required for one set of rough mold, but it is necessary to stop the gob supply once. Therefore, there is a problem in that the productivity is lowered and the mold such as the plunger is covered with the lubricating liquid to cause a problem of supercooling of the mold. Like the above-mentioned device, a spool head is provided above each split mold when the mold is open, and the spray head sprays the mold surface from above when the mold is open. Although it has an advantage that liquid is unlikely to adhere, it becomes an obstacle when replacing the rough mold or the rough mold holder, and the workability is significantly deteriorated. In some cases, the lubrication is inferior only with automatic oiling, and additional oiling work must be performed manually as in the conventional case, but in such a case, the spray head becomes a significant obstacle. There is.

On the other hand, in a device for spraying lubricating oil from above from the mouth mold oil in a state where the rough mold is closed, the mouth mold and the rough mold are sprayed by one nozzle, so that one of them is apt to be insufficiently sprayed. There is a point. Further, as disclosed in JP-A-57-1223839, the spray head 3 is provided on the fixed frame side.
In a device in which 6 is provided and the rough mold is opened and sprayed onto the mouth mold from above, the lubricant is not applied evenly to the mold surface of the mouth mold because of the oblique spraying.

That is, the conventional method has a problem in that the lubricant cannot be applied to the molding die in an appropriate amount in the appropriate cylinder, and the molding process must be stopped due to the coating operation.

The present invention was devised in view of the above-mentioned circumstances, and the purpose thereof is to apply an appropriate amount to a place where a lubricating liquid is required for a glass bottle molding die without hindering the forming process. It is an object of the present invention to provide a device for applying a lubricating liquid for a glass bottle forming mold, which can prevent the plunger and the like from being overcooled.

[Means for solving problems]

In order to solve the above-mentioned problems, the present invention is a glass bottle for forming a glass bottle semi-molded product from a molten glass gob by a rough mold and finish-molding the glass bottle molded product from the semi-molded product with a finishing mold. In a lubrication liquid application device for applying lubrication liquid to the mold surface of a molding die, a lubrication liquid spray nozzle that is in communication with a compressed air source via an air supply pipe and also connected to a lubrication oil tank via an oil supply pipe is used. It was provided on a funnel arm holding a funnel, and this funnel arm was moved to an upper position between the rough mold split molds that face each other when the rough mold was opened, and the spray nozzle was made to closely face the split mold surface of the rough mold. It is characterized by that.

[Action]

According to the present invention, a spray nozzle is provided on a funnel arm, and the funnel arm is moved upward when the rough mold is opened so that the spray nozzle is located at a position close to and opposed to the molding die. Since the spray nozzle is operated, it does not interfere with the glass bottle molding process and can be applied in an appropriate amount only to the place where the lubricating liquid of the molding die is required, and it does not overcool the die such as the plunger. .

Further, if the spray nozzle for spraying the mouth mold is arranged at a position facing the mold surface of the split mold when the mouth mold moves between the rough mold and the finishing mold, it can be evenly arranged on the mold surface of the mouth mold and other plungers, etc. No lubricant is applied to the mold.

〔Example〕

An embodiment of a lubricant coating device for a glass bottle molding die according to the present invention will be described below with reference to FIGS. 1 to 3.

1 to 3 show an embodiment of a rough type lubricating liquid coating apparatus, in which the reference numeral 1 is a funnel arm, which is fixed to a rotating shaft S and swings horizontally. It is supposed to do. In FIG. 1 and FIG. 2, the rough mold 2 is in an open state and is a half mold.
Indicates the split type with 2AR, 2AL, 2BR, and 2BL, respectively.

Each split mold 2AR, 2AL, 2B of the rough mold 2 in the open state
The spray nozzles 3AR, 3AL, 3BR, are attached to the funnel arm 1 so as to be located slightly above the R and 2BL.
3BL is attached respectively.

The spray nozzles 3AR, 3AL, 3BR, 3BL are communicated with the oil supply pipes 4AR, 4AL, 4BR, 4BL and the air supply pipes 5AR, 5AL, 5BR, 5BL.

As shown in FIG. 3, the spray nozzles 3 (3AR, 3AL, 3BR, 3BL) are connected to the lubricating liquid tank 6 by the oil supply pipe 4.
Is connected to the solenoid valve V ₁ by the air supply pipe 5,
It communicates with the compressed air source 7 via the pressure reducing valve V ₂ and the filter F.

Then, when the solenoid valve V ₁ is opened and the compressed air is introduced from the compressed air source 7 to the spray nozzle 3, the compressed air passes through the communication passage (not shown in FIG. 3) to the working chamber 25. Then, the piston valve 26 is opened against the biasing force of the compression coil spring 27. At this time, the lubricating liquid is supplied by gravity to the tip position of the piston valve 26 through the oil supply pipe 4. As a result, the lubricating liquid flows along the arrow and is delivered to the lubricating liquid ejection port 28, while the compressed air enters the air reservoir chamber 29 via the communication passage (not shown), and the lubricating liquid ejection port is discharged from this chamber 29. Compressed air jet 30 around 28
The lubricating liquid is ejected more vigorously, and the negative pressure generated at this time causes the lubricating liquid to be sucked from the lubricating liquid ejection port 28, mixed with the compressed air, and ejected in the form of mist.

Next, the operation of the rough type lubricating liquid application device configured as described above will be described.

In the molding process shown in FIG. 5, after the inversion operation in which the coarse mold 2 is opened and the parison 21 is transferred to the finishing mold 17, the mouth mold 11 passes the parison 21 to the finishing mold 17 and then the mouth mold 11 moves. Before the reverting operation to return to the rough mold 2, when the rough mold 2 is in the open state, the funnel arm 1 is additionally operated from the standby position to move it to an intermediate upper position of the split mold of the rough mold 2. Then, the divided pieces 2AR, 2AL, of the rough mold 2
2BR, 2BL spray nozzles 3AR, 3AL, 3B
As shown in FIG. 2, the solenoid valve V ₁ is opened with the R and 3BL closely opposed to the mold surfaces of the split molds, and the spray nozzles 3AR, 3AL, 3BR, and 3BL are turned into rough mold surfaces. Apply by spraying the lubricant. The funnel arm 1 returns to the original standby position after spraying, and the additional operation of this funnel arm is performed only when spraying is necessary, and does not have to be performed every bottle molding cycle. To decide. That is, since the lubricant liquid is sprayed by the additional operation while the funnel arm 1 is on standby (during the invert operation and the revert operation of the mouth die 11) in the conventional one-cycle manufacturing process, the conventional normal one-cycle manufacturing is performed. It does not extend the process time. Further, by controlling the spraying time, the air supply means and the lubricating liquid supply means, it is possible to easily adjust the coating amount on the mold surface. The spray nozzle 3 has a configuration in which the angle can be easily adjusted in the nozzle portion.

Next, another embodiment of the present invention will be described with reference to FIG.

FIG. 4 shows an embodiment of a mouth-shaped lubricating liquid application apparatus. In the figure, reference numerals 11A and 11B are mouth-shaped, 15 is an invert mechanism, and 16 is a mouth-shaped holder.

The spray nozzles 3A and 3B are fixed to the frame 8 above the inversion mechanism 15, and
Is sprayed toward the inner surface of the mouth of the mouth die 11 when performing the revert operation. That is, the mouth mold 11
A and 11B are parisons 22A and 22B, finishing dies 17A,
After passing to 17B, the rough mold 2A, 2
Returning to the lower part of B, the spray nozzles 3A and 3B are arranged so as to face the mouth mold surface during this rotational movement. The spraying operation of the spray nozzles 3A and 3B is exactly the same as the above-described operation.

[Effect of device]

As is clear from the description of the embodiments above, the present invention moves the funnel farm equipped with the spray nozzle during the glass bottle molding process, and arranges the spray nozzle at a position close and opposite to each other above the molding die. When in this position, the spray nozzle is operated, so that a proper amount of the lubricating liquid of the molding die can be applied to the molding die without impeding the molding process of the glass bottle.

Further, according to the present invention, by providing the lubricant spray nozzle on the existing funnel arm, it is not necessary to provide a mechanism for moving the lubricant spray nozzle on the molding machine. In addition, when the lubricant is applied and when the lubricant is sprayed back to the standby position, the lubricant spray nozzle is moved and waited by using the existing movement space and standby space for the funnel arm, so that the molding machine is especially lubricated. It is not necessary to reserve the above space for the liquid spray nozzle. Therefore, the size of the molding machine is not increased in order to make the lubricating liquid spray nozzle movable, and the degree of freedom in arrangement when adding another device is not hindered.

Also, when the mouthpiece spray nozzle is fixed to the fixed frame and the mouthpiece moves between the rough die and the finish die, if it is placed at a position facing the die surface of the split die, the die surface of the mouth die is evenly lubricated. Not only can the liquid be supplied, but no unnecessary lubricant is applied to other members.

[Brief description of drawings]

FIG. 1 is a plan view showing an embodiment of a lubricant coating device for a glass bottle molding die according to the present invention, FIG. 2 is a sectional view taken along line II-II of FIG. 1, and FIG. FIG. 4 is a side view showing another embodiment of the present invention, and FIG. 5 is a sectional view of a conventional glass bottle molding die. 1 ... Funnel arm, 2 ... Coarse type, 3 ... Spray nozzle, 4 ... Oil supply pipe, 5 ... Air supply pipe, 6 ... Lubricant tank, 7 ... Compressed air source, 8 ... Frame, 10 ...... Funnel, 11 …… mouth type, 12 …… plunger, 13 ……
Baffle, 15 …… Invert mechanism, 16 …… Mouth holder, 17 …… Finishing mold, 18 …… Blow head, 19 ……
Bottom type, 20 ... Gob, 21,22 ... Parison.

Continuation of the front page (56) References JP-A-48-29812 (JP, A) JP-A-57-123839 (JP, A) JP-A-60-46935 (JP, A) JP-A-48-34914 (JP , A) JP 60-171242 (JP, A) JP 58-204829 (JP, A) JP 38-3430 (JP, B1) JP 51-22005 (JP, B2)

Claims (2)

[Scope of utility model registration request] 1. A mold surface of a glass bottle molding mold for molding a glass bottle semi-molded product from a molten glass gob by a rough mold and finishing-molding the glass bottle molded product from the semi-molded product with a finishing mold. In a lubricating liquid application device for applying a lubricating liquid, a lubricating liquid spray nozzle, which is connected to a compressed air source via an air supply pipe and is connected to a lubricating oil tank via an oil supply pipe, is placed on a funnel arm holding a funnel. The glass bottle is characterized in that the funnel arm is moved to an upper position between the rough mold split molds facing each other when the rough mold is opened, so that the spray nozzle is closely opposed to the rough mold split mold surface. Fluid coating device for molding dies. 2. A fixed frame is provided with a spray nozzle for engaging the rough mold to hold a bottle mouth, and spraying a lubricating liquid to the mouth mold moving between the rough mold and the finishing mold, and the spray nozzle is provided in the mouth. The mold for glass bottle according to claim 1, wherein the mold is arranged at a position facing the mold surface of the split mold when the mold moves between the rough mold and the finishing mold. Lubricant application device.