KR20080014240A - Pin-holes detecting device and method on vessel - Google Patents

Abstract

A device and a method for detecting pin holes on a vessel are provided to detect pin holes formed on the vessel easily by measuring vacuum pressure in the vessel, which is vacuumized by a vacuum pump, during a predetermined time. A device and a method for detecting pin holes on a vessel comprises a vessel(10), a detecting table(60), a sucking unit(20), a pressure measuring unit(30), a valve(70), a central control unit(80), a timer(40), and an alarming unit(50). The pressure measuring unit is branched between the detecting table and the sucking unit. The valve is installed among the pressure measuring unit, detecting unit, and the sucking unit. When the valve opens the detecting table, the sucking unit, and the pressure measuring unit are connected to one another to measure vacuum pressure in the vessel lying on the table. The sucking unit is a vacuum pump.

Description

Pin-holes detecting device and method on vessel

1 is a schematic configuration diagram according to the present invention.

Figure 2 is a flow chart showing a pinhole detection method of the container according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: inspection target container 12: entrance

20: suction means 30: pressure measuring means

40: timer 50: notification means

60: test plate 62: elastic part

64: suction hole 70: valve

80: switch 80: central control unit

The present invention relates to an apparatus and method for detecting a pin hole, which is a minute hole generated in the process of engraving a container.

Glass is the most common and common material used in everyday life for a long time. Until now, glass is a material made of a mixture of silica sand and soda ash lime, melted and cooled down quickly. It has been used for many years in the container manufacturing field where aesthetic designs such as tableware and vases are emphasized for a long time.

In addition, the sharp wheel on the surface of the container is rotated at a high speed to add a sense of beauty, in the process of being engraved to exceed the thickness of the container is a fine hole occurs.

Such fine holes cause leakage of the liquid contained in the container, so it is necessary to detect them.

By the way, the minute hole is commonly referred to as a pinhole, which is minute enough to be invisible, and is often mixed with a carved pattern on the surface of the glass container. .

As another method of pinhole detection, a method of detecting pinholes by sweeping the surface of a glass container with a human hand may be used.However, the method of relying solely on a person's tactile sense is also difficult to identify completely. The sharp wheel is rotated at high speed, so it is partially sharp and there is a problem of injury.

In addition, as described above, methods for detecting a pinhole of a glass container by a person take a considerable time and thus have a problem of low efficiency.

The present invention has been proposed to solve the above problems,

A device for pinhole detection of a container which detects the presence of a pinhole in a container by deviating from the conventional method of detecting a pinhole of a container by visual or tactile one by one, and measuring the holding time of the vacuum state by making the inside of the container vacuum. It is an object to provide a method.

Pinhole detection device of the container according to the present invention for achieving the above object

Suction means for sucking the air in the container to be examined and making the interior of the container to be vacuumed; Pressure measuring means connected to the inspection object container and measuring whether vacuum pressure is formed in the inspection object container according to air suction of the suction means; A central control unit which checks the measured vacuum pressure inside the inspection target container and determines whether pinholes are present; And when the central control unit determines the presence of the pinhole of the inspection target container, characterized in that it comprises a notification means for emitting a corresponding sound corresponding thereto.

And, the pinhole detection method of the container according to the present invention for achieving the above object

(a) sucking the air inside the container to be inspected by using suction means to make the inside of the container to be vacuumed;

(b) determining, by the central control unit, whether there is a pinhole in the inspected container by checking a vacuum pressure inside the inspected container by using a pressure measuring means;

(c) determining, by the central controller, whether a pinhole exists in the inspection container based on a reference value of the vacuum pressure inside the inspection container; And

(d) when the central control unit determines the presence of the pinhole of the inspection target container, characterized in that it comprises the step of using a notification means for generating a corresponding notification sound.

Hereinafter, with reference to the accompanying drawings to describe the configuration of the present invention in more detail.

1 is a schematic configuration diagram according to the present invention, Figure 2 is a flow chart showing a pinhole detection method of the container according to the present invention.

As shown in FIG. 1, the pinhole detection apparatus for a container according to the present invention basically includes a test target container 10, a test plate 60, a suction means 20, a pressure measuring means 30, a valve 70, The central control unit 80, the timer 40 and the notification means 50 and the like.

The container 10 to be inspected is an inlet having an accommodating space therein, and is sculpted or rotated by a sharp wheel on the surface at high speed.

In addition, the inspection object container 10 refers to a container in which a pinhole, which is a fine hole, may be formed when the container is sculpted beyond the thickness of the container.

The inspection object container 10 is preferably made of glass, it may be made of a plastic material.

Here, the inspection object container 10 is enclosed to seal the inlet 12 of the inspection object container 10, and the suction means 20 and the inspection object for sucking the air inside the inspection object container 10. The test plate 60 for connection with the container 10 is installed.

The inspection plate 60 has an upper portion, which is placed upside down in close contact with the inlet portion 12 of the inspection object container 10 with the inlet portion 12 facing downward, so that the inside and the outside of the inspection object container 10 are closed. An elastic portion 62 for blocking is formed, and a suction hole 64 for connecting the inspection object container 10 and the suction means 20 to be described later is formed in the center portion of the inspection plate 60. .

The elastic part 62 is first brought into close contact with the inlet part 12 of the test object container 10 by the load of the test object container 10, and then closely contacted again by the suction force of the suction member, and thus the test object container 10. In order to seal the inside of the outside with the outside, it is preferable to be made of a material such as elastic material rubber, cotton, sponge.

In addition, a suction means 20 is provided in the suction hole 64 to suck the air inside the inspection target container 10 placed in the inspection plate 60 to vacuum the inside of the inspection target container 10. Connected.

The suction means 20 is preferably made of a vacuum pump (Vacuum pump).

Since the configuration of the vacuum pump is a known description, detailed description thereof will be omitted.

In the state configured as described above is provided with a pressure measuring means 30 to measure the presence or absence of a vacuum state inside the inspection object container (10).

The pressure measuring means 30 is branched between the test plate 60 and the suction means 20, the valve 70 between the pressure measuring means 30 and the test plate 60 and the suction means 20 ) Is installed.

That is, when the valve 70 is opened, the test plate 60 and the suction means 20 and the pressure measuring means 30 are connected to each other and the pressure measuring means 30 is placed on the test plate 60. It is possible to measure the presence or absence of vacuum pressure inside the container 10.

In this case, when the inspection object container 10 is placed in the elastic part 62 of the inspection plate 60, the inspection plate 60 automatically generates a detection signal to operate the suction means 20, and the valve 70. Opening and closing, and further comprises a switch 80 for operating the pressure measuring means (30).

The switch 80 is composed of a limit switch 80. The limit switch 80 uses a dead point of the spring (死 點: the point at which the speed becomes zero in the reciprocating motion). Built-in micro switch 80 to enable the opening and closing of the contact is a kind of sensor that is protected from external forces, moisture, oil vibration and the like.

Therefore, when the inlet 12 of the inspection object container 10 is placed in the elastic portion 62 of the inspection plate 60, the inspection object container 10 comes into contact with the limit switch 80. The contact of the limit switch 80 is connected to each other to generate a detection signal, the suction means 20 is operated to suck the air inside the inspection object container 10, open the valve 70, the pressure measuring means Through 30, it is measured whether the vacuum pressure is formed inside the inspection target container 10.

The vacuum pressure is -760 mmHg, but in reality, it is very difficult to make a perfect vacuum, so -600 mmHg is set to the vacuum pressure to determine whether a vacuum pressure is formed.

And the central control unit 80 is connected to the pressure measuring means 30 and the timer 40, when it is recognized that the vacuum pressure is formed inside the inspection target container 10 by the pressure measuring means 30, From the timer 40 to measure the formation and maintenance time of the vacuum pressure inside the inspection target container 10, and compares the measured time with a preset time to determine the presence of the pinhole of the inspection target container 10. It serves to judge.

The preset time of the timer 40 may be set by the user using a separate key input unit, or may be set in advance by the manufacturer at the time of shipment of the device, and preferably in the range of 3 to 5 seconds.

When the central control unit 80 maintains a vacuum pressure in the interior of the inspection container 10 for more than 3 to 5 seconds, the inspection object container 10 is determined to be pass because there is no pinhole. Will be generated.

In addition, the central control unit 80 does not form a vacuum pressure for 3 to 5 seconds inside the inspection target container 10, if the pressure is reduced because the pinhole is formed in the inspection target container 10, the inspection target container Determination of failure (10) is to generate a notification sound corresponding to this, or to notify the passing user through a method that does not generate a notification sound.

Referring to the pinhole inspection method of the container of the present invention configured as described above are as follows.

First, the inspection object container 10 is inverted and the inlet part 12 is placed in the elastic part 62 of the upper part of the test plate 60.

When the test object container 10 is placed on the test plate 60 as described above, the limit switch 80 is operated, and the limit switch 80 operates the suction means 20 connected to the test plate 60. The valve 70 is opened to operate the pressure measuring means 30.

Next, the suction means 20 is used to suck the air inside the inspection target container 10 to make the interior of the inspection target container 10 in a vacuum state (S10).

At this time, since the inspection object container 10 is in a vacuum state, it will be in close contact with the elastic part 62 itself, so that the member for sealing between the inspection object container 10 and the elastic part 62 of the inspection plate 60 is It is unnecessary.

Of course, in the process of the suction means 20 to make the inside of the inspection container 10 in a vacuum state, the pressure value of the inside of the inspection container 10 measured by the suction means 20 in the pressure measuring means 30. Based on the suction of air until the interior of the inspection target container 10 is in a vacuum state.

Next, the central controller 80 measures the presence or absence of the vacuum pressure inside the inspection target container 10 according to the air suction of the suction means 20 by using the pressure measuring means 30, and maintains the formation of the vacuum pressure. The time is measured using the timer 40 (S20).

Next, the central controller 80 determines whether the pinhole of the inspection container 10 exists by determining whether the holding time of the vacuum pressure in the inspection container 10 exceeds a preset time. (S30)

That is, when the vacuum pressure is maintained in the interior of the inspection container 10 for more than 3 to 5 seconds, the inspection object container 10 is determined to pass because there is no pinhole, and generates a corresponding notification sound. (S40)

However, if the vacuum pressure is not formed within the inspection container 10 for 3 to 5 seconds or less, since the pinhole is formed in the inspection container 10, the inspection container 10 is determined to fail and By generating a corresponding notification sound or by not causing the notification sound, the user is distinguished from the pass judgment to notify the user that the failure (S42).

Here, the pin hole detection method of the container according to the present invention, even if the timer 40 and the notification means 50 is not provided, the user while looking at the scale of the pressure measuring means 30 inside the inspection object container 10 It is possible to determine whether the pinhole exists in the inspection container 10 by determining whether the vacuum pressure is formed, and in another way, the inspection object container 10 placed on the elastic part 62 of the inspection plate 60. In the case where the suction means 20 sucks the air inside the center, the inlet 12 of the container 10 to be inspected is in close contact with the elastic part 62 by the suction force of the suction means 20. By using the physical force, the user can lift the inspection object container 10 to determine that there is no pinhole if it is not lifted well.

According to the present invention configured as described above,

The present invention uses the suction means to suck the air inside the inspection container to make the interior of the inspection container into a vacuum state, and by using the timer and the pressure measuring means of the pinhole through the formation time of the vacuum pressure in the inspection container. The presence or absence is detected.

Therefore, there is an effect that a person can conveniently detect the presence or absence of pinholes in a container without using an inefficient method of detecting by using sight or hearing.

Claims (9)

Suction means for sucking the air in the container to be examined to make the interior of the container to be vacuumed; Pressure measuring means connected to the inspection object container and measuring whether vacuum pressure is formed in the inspection object container according to air suction of the suction means; And a central control unit configured to determine whether a pinhole exists in the inspected container according to a reference value of the vacuum pressure inside the inspected container. The method of claim 1, By measuring the holding time of the vacuum pressure inside the inspection target container measured by the pressure measuring means, the central controller determines whether the holding time of the vacuum pressure inside the inspection target container exceeds the preset time. And a timer for determining whether or not there is a pinhole in the inspection target container. The method according to claim 1 or 2, And determining, by the central control unit, whether or not a pinhole exists in the inspection target container, and generating a notification sound corresponding to the central control unit. The method according to any one of claims 1 to 3, Between the suction means and the inspection target container The upper portion is formed with an elastic portion in close contact with the inlet portion of the inspection object container, Pinhole detection device of the container, characterized in that the test plate is provided with a suction hole formed to be connected to the suction means to suck the air inside the inspection object container placed in the elastic portion. The method of claim 4, wherein A valve is further provided in front of the test plate and the pressure measuring means, and the test plate is further provided with a switch. When the test target container is placed in the elastic part of the test plate, the switch automatically generates a detection signal. By opening the valve and operating the pressure measuring means. (a) sucking the air inside the container to be inspected by using suction means to make the inside of the container to be vacuumed; (b) determining, by the central control unit, whether there is a pinhole in the inspected container by checking a vacuum pressure inside the inspected container by using a pressure measuring means; (C) the central control unit pin hole detection method comprising the step of determining the presence of the pinhole of the inspection container in accordance with the reference value of the vacuum pressure inside the inspection container. The method of claim 6, In (b) above The central control unit when the switch generates a detection signal that the container is placed in the resilient portion of the test plate, thereby opening the valve connected to the switch, thereby measuring the pressure inside the inspection target container by using a pressure measuring means Pinhole detection method of the container, characterized in that. The method according to claim 6 or 7, In (b) above The central control unit measures the holding time of the vacuum pressure inside the inspection container using a timer, and determines whether the holding time of the vacuum pressure inside the inspection container exceeds the preset time. A pinhole detection method for a container, characterized by determining whether a pinhole exists in the container. The method of claim 8, And determining, by the central control unit, whether a pinhole exists in the inspection target container, by using a notification means, generating a corresponding notification sound.

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