JP3134102U - Bottle cap - Google Patents

Abstract

An object of the present invention is to provide a bottle cap that can recover and use surplus raw material in a raw material bottle.
A cap body that closes a mouth of a raw material bottle, a pressure joint that can be connected to a pressure supply source, a raw material supply joint that takes out the raw material in the raw material bottle, and a raw material that recovers the raw material into the raw material bottle. A recovery joint 113 is provided. The pressure joint 111, the material supply joint 112, and the material recovery joint 113 may be high-pressure pipe joints, and the material recovery joint 113 may be provided with a manual or electric valve that opens and closes the flow path.
[Selection] Figure 3

Description

  The present invention relates to a bottle cap suitable for sealing a mouth of a raw material bottle containing a chemical or the like.

A technique for forming a circuit by performing exposure development and etching in the manufacturing process of a semiconductor integrated circuit, a TFT-LCD, or the like is known.
To explain this technique, first, a photoresist agent containing a polymer resin, a photosensitive compound, and a solvent is applied along a predetermined design on an insulating layer or a conductive layer provided on a wafer or a glass substrate.
Next, the wafer or glass substrate coated with the photoresist agent is heated and baked to evaporate the solvent, and then exposed to light rays such as ultraviolet rays, electron beams, and X-rays, and the exposed substrate is further baked to obtain the wafer or A developed pattern is formed on a glass substrate.
Further, the developed wear or glass substrate is etched to remove the insulating layer or the conductor layer where the photoresist agent is not applied, and when the remaining photoresist agent is removed, the design on the wafer or glass substrate is removed. Moved in.

In such a manufacturing process, the photoresist agent stored in the bottle must be supplied to the coating apparatus through the supply path. In addition, a chemical for removing bubbles in the photoresist may be supplied from the bottle to the coating device via the supply path.
In the conventional raw material supply path, as shown in FIG. 1, a first pipe 61 and a second pipe 62 are connected to the raw material bottle 10. The first pipe 61 is connected to an inert gas (for example, nitrogen) supply source, and the second pipe 62 is sequentially connected to the raw material storage unit 20, the pump 30, and the production processing apparatus (coating apparatus) 40.

As shown in FIG. 2, a pressure joint 111 for connecting the first pipe 61 and a raw material for connecting the second pipe 62 are connected to the cap body 11 that closes the mouth of the raw material bottle 10. A supply joint 112 is provided.
An exhaust pipe 21 for discharging the air in the second pipe 62 is connected to the raw material storage unit 20, and an inert gas is sent to the raw material bottle 10 through the first pipe 61, and the pressure in the raw material bottle 10 is increased. When increased, the air in the second pipe 62 is exhausted through the exhaust pipe 21, and the second pipe 62 passes through the raw material (photoresist agent or chemical for removing bubbles in the photoresist) sent out from the raw material bottle 10. ).

The raw material that has entered the second pipeline 62 is sent to the production processing apparatus 40 by the action of the pump 30. The pump 30 is set to automatically feed a certain amount of raw material according to the processing procedure, the time required for processing, and the like.
However, since the conventional bottle cap does not have a structure for collecting the raw material from the supply path into the raw material bottle 10, the surplus raw material is discharged to the waste liquid container 50 through the discharge port at the front end of the pump 30. , Treated as waste. This not only wastes raw materials, but also costs waste liquid treatment.

  The problem to be solved by the present invention is to provide a bottle cap that can recover and use surplus raw materials in a bottle.

The bottle cap according to the present invention includes: a cap body that closes a mouth of a raw material bottle; a pressure joint that can be connected to a pressure supply source; a raw material supply joint that takes out the raw material in the raw material bottle; A material recovery joint for recovery is provided.
The raw material supply joint may be provided with a suction pipe extending into the raw material bottle.
The pressure joint, the raw material supply joint, and the raw material recovery joint are preferably high-pressure pipe joints.
A manual or electric valve that opens and closes the flow path may be provided in the raw material recovery joint.

  According to the present invention, the raw material taken out from the raw material bottle and not used can be returned to the raw material bottle and recovered and used, so that the raw material is not wasted and the labor and cost required for disposal are reduced. It is possible to reduce environmental risks.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description, parts common to those in the related art are denoted by common reference numerals.
As shown in FIG. 3, the bottle cap of the present invention comprises a cap body 11 provided with a pressure joint 111, a raw material supply joint 112 and a raw material recovery joint 113.
As shown in FIG. 4, the cap body 11 closes the mouth of the raw material bottle 10 containing raw materials such as chemicals, and the raw material bottle 10 is incorporated in the raw material supply system that supplies the stored raw materials to the production processing apparatus 40. It is.

The raw material supply system, like the conventional one, passes through the first pipeline 61 connected to a pressure supply source such as an inert gas cylinder, the raw material storage unit 20 and the pump 30, and reaches the production processing apparatus 40. The first pipe 61 is connected to the pressure joint 111, and the second pipe 62 is connected to the raw material supply joint 112.
The pressure joint 111, the material supply joint 112, and the material recovery joint 113 are high-pressure pipe joints that can withstand the pressure that the material bottle 10 receives from the material supply system.

The raw material supply joint 112 is provided with a suction pipe that extends into the raw material bottle 10 and reaches the bottom.
The raw material recovery joint 113 can be connected to the discharge port of the pump 30 via the third pipe 63, and the exhaust pipe 21 is connected to the raw material storage unit 20.

In order to supply the raw material stored in the raw material bottle 10, the pressure in the raw material bottle 10 is increased through the first pipe 61 and the pressure joint 111, and the raw material is supplied through the raw material supply joint 112 and the second pipe 62. It sends out to the raw material storage part 20, and the air in the 2nd pipe line 62 is discharged | emitted from the exhaust pipe 21. FIG.
When the raw material fills the second pipe 62, the raw material is sent to the production processing apparatus 40 by the pressure of the inert gas and the action of the pump 30.
Further, the remaining raw material that is not used in the production processing apparatus 40 is returned to the raw material bottle 10 through the third pipe 63 and the raw material recovery joint 113 by the pump 30. The pump 30 can automatically supply and collect the raw material based on the set timing.

Although not shown, a manual valve is provided at the raw material recovery joint 113 so that an operator can return the raw material to the raw material bottle 10 at an appropriate timing, or an electric valve is provided to recover the raw material into the raw material bottle 10. The timing to perform may be controlled by a control circuit.
Of course, the raw material can be recovered into the raw material bottle 10 by stopping the pressure supply from the pressure supply source and driving the pump 30 in the recovery direction without providing a valve at the raw material recovery joint 113.

The figure which shows the conventional raw material supply path. The perspective view of the conventional bottle cap. The perspective view of the cap for bottles which shows the Example of this invention. The figure which shows the raw material supply path which concerns on the Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Raw material bottle 11 Cap main body 111 Pressurization joint 112 Raw material supply joint 113 Raw material collection | recovery joint 20 Raw material storage part 21 Exhaust pipe 30 Pump 40 Production processing apparatus 61 1st pipe line 62 2nd pipe line 63 3rd pipe line

Claims (8)

  A cap body that closes the mouth of the raw material bottle is provided with a pressure joint that can be connected to a pressure supply source, a raw material supply joint that takes out the raw material in the raw material bottle, and a raw material recovery joint that recovers the raw material into the raw material bottle Cap for bottles characterized by that.   The bottle cap according to claim 1, wherein a suction pipe extending into the raw material bottle is provided in the raw material supply joint.   The bottle cap according to claim 1 or 2, wherein the pressure joint is a high-pressure pipe joint.   The bottle cap according to any one of claims 1 to 3, wherein the raw material supply joint is a high-pressure pipe joint.   The bottle cap according to any one of claims 1 to 4, wherein the raw material recovery joint is a high-pressure pipe joint.   The bottle cap according to any one of claims 1 to 5, wherein a valve for opening and closing the flow path is provided in the raw material recovery joint.   The bottle cap according to claim 6, wherein the valve is a manual valve.   The bottle cap according to claim 6, wherein the valve is an electric valve.

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