KR20080000696A - Device for testing gas permeability of tire inner rubber - Google Patents

Abstract

A device for testing gas permeability of an inner rubber for a tire is provided to test various inner rubber samples at the same time. A device for testing gas permeability of an inner rubber for a tire comprises at least one vacuum unit(10), at least one pressure detecting sensor(40), and a computer(50). The vacuum unit comprises a vacuum tank(11), a mounting ring(18), and a vacuum pump(17). The vacuum tank includes a flange(13) formed around an inlet, a discharge pipe(15), and a valve(16) for controlling an opening degree of the discharge pipe. The mounting ring is allowed to be attached to the flange to seal and fix an inner rubber sample(30) which is positioned at the inlet, at the vacuum tank. The vacuum pump is connected to the discharge pipe to control a vacuum degree inside the vacuum tank. The pressure detecting sensor is mounted at one side of an outer peripheral surface for the vacuum tank to measure pneumatic pressure inside the vacuum tank. The computer, which includes a multi-channel data collecting card to receive the signal of various channels for the pressure detecting sensor, displays the pneumatic pressure of the vacuum tank by receiving a signal of the pressure detecting sensor.

Description

Air permeability testing device for tire inner rubber {DEVICE FOR TESTING GAS PERMEABILITY OF TIRE INNER RUBBER}

1 is a block diagram showing an air permeability test apparatus of the tire inner rubber according to the present invention.

Figure 2 is an exploded perspective view showing a vacuum device constituting the air permeability test apparatus of the tire inner rubber according to the present invention.

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

10: vacuum apparatus, 11: vacuum tank,

12: inlet of the vacuum tank, 13: flange,

15: discharge pipe, 16: valve,

17: vacuum pump, 18: mounting ring,

30: inner rubber specimen, 40: pressure sensor,

50: computer.

The present invention relates to an air permeability test apparatus for tire inner rubber, and more particularly, to an air permeability test apparatus for tire inner rubber capable of simultaneously testing a variety of different specimens.

Generally, a pneumatic tire is made to exhibit the performance, such as riding comfort, noise, and maneuverability, aimed at the initial stage as much as possible. The pneumatic tire is composed of various components such as inner, carcass, belt, tread, sidewall, bead, among which the inner is a component that acts as a tube inside the tire, so that the air to the inner rubber The impermeability of the tire is the biggest feature of the tire.

Therefore, one type of air permeability test is performed to test tire performance. ASTM D 2692-98 relates to a method for testing air permeability of a tire cord and is suitable for one sample test. U.S. Patent No. 4,938,056 A1 also discloses a technique for testing air permeability on finished tires, for example, it is not possible to measure air permeability for semi-finished products, such as inner rubber.

On the other hand, it can be considered to test the air permeability using the air pressure difference for the inner rubber specimen, and in this case, since only the air permeability is tested for one specimen, it takes a considerable time to test a variety of different specimens. The problem arises. In addition, since a lot of equipment is required to test various kinds of inner rubber specimens at one time, the air permeability test apparatus using the air pressure difference is a problem that takes a lot of test cost considering that the equipment is expensive.

The present invention has been made in consideration of the above-described conventional problems, and an object of the present invention is to provide an air permeability test apparatus for tire inner rubber capable of simultaneously testing a variety of different specimens.

In order to achieve the above object, the air permeability test apparatus of the tire inner rubber according to the present invention, a vacuum tank having a flange formed around the inlet and the valve for adjusting the opening degree of the discharge pipe, which is placed at the inlet At least one vacuum apparatus having a mounting ring detachably coupled to the flange to secure an inner rubber specimen to the vacuum tank in a hermetic structure and a vacuum pump connected to the discharge pipe to adjust the degree of vacuum inside the vacuum tank Wow; At least one pressure sensor for measuring the pressure inside each vacuum tank; And a computer for displaying a change in air pressure in response to the signal of each pressure sensor.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

1 shows an air permeability test apparatus for tire inner rubber according to the present invention, and FIG. 2 shows a vacuum apparatus for configuring an air permeability test apparatus for tire inner rubber according to the present invention.

An air permeability test apparatus for tire inner rubber according to the present invention includes at least one vacuum device 10, at least one pressure sensor 40, and a computer 50.

The vacuum apparatus 10 includes a vacuum tank 11 having a flange 13 formed around the inlet 12 and having a discharge pipe 15 and a valve 16 for adjusting the opening degree of the discharge pipe 15. And a mounting ring (18) detachably coupled to the flange (13) to secure the inner rubber specimen (30) placed at the inlet (12) to the airtight structure with respect to the vacuum tank (11). It comprises a vacuum pump 17 connected to the discharge pipe 15 to adjust the degree of vacuum in the tank (11). The vacuum apparatus 10 may be provided in plural so as to test the air permeability for a plurality of inner rubber specimens 30 at the same time.

For example, as shown in Figure 2, the vacuum tank 11 may be formed in a cylindrical structure with one open, the discharge pipe 15 may be installed on one side of the outer peripheral surface. The flange 13 and the mounting ring 18 may be formed in the same type, and a plurality of fastening holes 14 and 19 corresponding to each other may be formed in the flange 13 and the mounting ring 18.

Accordingly, an inner rubber specimen 30 placed between the flange 13 and the mounting ring 18 is inserted into the flange 13 and the mounting ring 18 so as to block the inlet 12 of the vacuum tank 11. To the vacuum tank 11 by a fastening means for fastening through the fastening holes 14 and 19, for example, the bolt 20 and the nut 21, may be fixed to the airtight structure.

The vacuum pump 17 discharges air in the vacuum tank 11 through the discharge pipe 15 in the state in which the valve 16 is opened, so as to adjust the degree of vacuum in the vacuum tank 11. do.

The pressure sensor 40 is for measuring the air pressure inside the vacuum tank 11, it may be mounted on one side of the outer peripheral surface of the vacuum tank (11).

The computer 50, as shown in Figure 1, to display the air pressure in response to the signal of the pressure sensor 40, which can receive signals of various channels from a plurality of pressure sensor 40 It is desirable to have a multi-channel data acquisition card embedded therein.

Next, the operation of the air permeability test apparatus of the tire inner rubber according to the present invention configured as described above will be described.

The inner rubber specimen 30 is placed over the inlet 12 and the flange 13 of the vacuum tank 11, and then the mounting ring 18 is placed on the inner rubber specimen 30, and the mounting ring 18 The inner rubber specimen 30 by fastening the bolt 20 and the nut 21 through the fastening hole 19, the inner rubber specimen 30, and the fastening hole 14 of the flange 13. The inside of the vacuum tank 11 is fixed in an airtight structure. When testing the air permeability for a plurality of inner rubber specimens 30, one inner rubber specimen 30 is mounted in each vacuum device 10.

In this way, while the inner rubber specimens 30 are mounted on the respective vacuum devices 10, the valve 16 is opened to drive the vacuum pump 17 until the predetermined vacuum degree, that is, the predetermined air pressure is reached. After the air in the vacuum tank 11 is discharged, the valve 16 is closed and the driving of the vacuum pump 17 is stopped.

As such, when the air pressure inside the vacuum tank 11 is lowered, air outside the vacuum apparatus 10 penetrates the inner rubber specimen 30 and penetrates into the vacuum tank 11 due to the difference in air pressure, thereby evaluating the vacuum tank ( 11) The internal air pressure changes, and this air pressure change is detected by the pressure sensor 40 in real time and input to the computer 50, and displayed on the monitor of the computer 50.

Therefore, the air permeability for each inner rubber specimen 30 can be simultaneously known in real time through the change in the air pressure inside the vacuum tank 11 equipped with each pressure sensor 40 shown in the monitor.

According to the air permeability test apparatus of the tire inner rubber according to the present invention configured as described above, by mounting the tire inner rubber to each of the plurality of vacuum apparatus 10 can test the air permeability for various tire inner rubber at the same time. Therefore, air permeability can significantly reduce the test time.

In addition, since a simple structure and a plurality of inexpensive vacuum devices 10 are required to test various types of inner rubber specimens 30 at a time, air permeability can also significantly reduce the test cost.

Claims (1)

Vacuum tank (11) having a flange (13) formed around the inlet (12) and having a discharge pipe (15) and a valve (16) for adjusting the opening degree of the discharge pipe, and an inner rubber specimen placed at the inlet of the vacuum tank. A mounting ring 18 detachably coupled to the flange to secure the airtight structure 30 to the vacuum tank, and a vacuum pump 17 connected to the discharge pipe to adjust the degree of vacuum inside the vacuum tank. At least one vacuum device (10); At least one pressure sensor (40) for measuring the pressure inside each vacuum tank; And, And a computer (50) for displaying a change in air pressure in response to the signals of the pressure sensors.

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