KR101826289B1 - apparatus inspecting waterproof of mibile - Google Patents

Abstract

Provided is a waterproof inspection device for a terminal, including: a chamber portion for providing an inspection space; a pressure regulating portion for regulating a pressure of the chamber portion; a plurality of support plates for supporting a terminal; a mounting projection portion on which the terminal is placed; a displacement sensor for measuring a deformation amount of the terminal; and a reading portion for reading whether or not waterproofing is defective based on the measured deformation amount of the terminal. Thus, the present disclosure is able to authenticate waterproof properties by accurately determining whether or not a terminal is classified based on deformation information of the terminal, and also, be used in common regardless of a type of such a terminal, and in addition, prevent damage to liquid crystals.

Description

[0001] The present invention relates to a device for inspecting waterproof of mibiles,

The present invention relates to a testing apparatus, and more particularly, to a testing apparatus capable of accurately determining the confidentiality of a terminal based on terminal deformation information, and being capable of being used in common regardless of the type of terminal To a waterproof inspection device for a terminal.

Generally, a portable terminal is a device that a user can hold and use such as a cell phone, an mp3 player, or various pads.

Such a terminal typically has a structure in which various circuit components are embedded in a case whose front surface is covered with a liquid crystal. Various kinds of gaps exposed to the outside, such as a connection part between the case and the liquid crystal, are sealed for airtightness .

In other words, when considering that a portable terminal such as a mobile phone is always used and carried by a user, the terminal is often wet or wet with water, and when the terminal is wet with water, Airtightness is one of the most important tasks because there is a fear that the damage of the circuit parts would be caused if the penetration is made.

However, in the conventional case, the inspection method for inspecting the tightness of the finished terminal is carried out by putting it in water for a long time, so that the inspection time is practically long. In the case of a poorly sealed product, There is a disadvantage that the loss ratio is large.

Accordingly, recently, as disclosed in Japanese Patent Application No. 10-1197704, Japanese Patent Application No. 10-1406698, Japanese Patent Laid-Open No. 10-2013-0066443, and the like, it is proposed that the airtightness defect inspection can be performed in various ways.

Particularly, in the method disclosed in the above-mentioned Japanese Patent No. 10-1197704, in the case of detecting the reaction of the terminal according to the pressure change in the chamber space by the load cell, There is an advantage that it is possible.

However, in the case of the technique disclosed in the above-mentioned Japanese Patent No. 10-1197704, since the liquid crystal of the terminal stably contacts the bottom surface of the chamber, the liquid crystal of the terminal may be damaged.

When the height of the load cell can not be precisely adjusted in consideration of the structure in which the load cell is in contact with the surface of the terminal while the load cell is positioned on the upper side in the chamber space, There is a problem that the deformation amount of the corresponding terminal can not be accurately confirmed and that there is a problem in that the terminal to be inspected is moved differently when the pressure is supplied in the chamber space, There is a concern that it may be caused.

Patent No. 10-1197704 Patent No. 10-1406698 Published Japanese Patent Application No. 10-2013-0066443

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a mobile terminal which can accurately determine the confidentiality of a terminal based on terminal deformation information, And to provide a waterproof inspection apparatus for a terminal according to a new type which can prevent damage to liquid crystal.

According to another aspect of the present invention, there is provided a waterproofing inspection apparatus for a terminal, comprising: a chamber for providing an inspection space while receiving an inspection target terminal; A pressure regulator for changing a pressure of the inspection space in the chamber part; A plurality of support plates provided in the inspection space in the chamber and supporting the front and rear sides and both sides of the inspection target terminal respectively; A mounting protrusion protruding from both ends of opposite surfaces of two receiving plates facing each other among the respective receiving plates, the four corners of the terminal being laid over; And the upper end of the terminal is positioned higher than the upper surface height of the overhanging portion of the terminal, so that the lifting distance of the terminal when the terminal is deformed, A displacement sensor for measuring the amount of deformation based on the displacement; And a reading unit for determining a defective airtightness of the terminal based on a pressure change in the inspection space and an amount of deformation measured by the displacement sensor.

Here, the chamber part may include a box-shaped lower chamber which is fixed to the upper surface of the work table and is open to the upper side, a box-shaped lower chamber which is fixed to the upper surface of the lower chamber, And an upper chamber in the form of a box opened downward to provide an inspection space.

In addition, each of the receiving plates is installed to be positionally changeable in the horizontal direction in the chamber part.

The overhang portion may be disposed in the height direction of each of the receiving plates.

The reading unit may be programmed to additionally determine an airtightness defect based on a change rate of the displacement measured by the displacement sensor while maintaining the inside of the inspection space at the same pressure for a predetermined time.

INDUSTRIAL APPLICABILITY As described above, the waterproof test apparatus for a terminal according to the present invention has the effect of checking the airtightness of the terminal and performing the waterproof test.

In particular, since the waterproof testing apparatus for a terminal according to the present invention prevents horizontal flow of the terminal when the pressure is adjusted to the inside of the inspection space of the chamber, the contact portion with the displacement sensor can always be maintained constant, Can be accurately performed, and the test reliability can be improved.

In addition, the waterproof test apparatus for a terminal according to the present invention is configured such that a portion where a terminal is seated supports the edge portion of the terminal, so that damage to the liquid crystal of the terminal is not generated.

In addition, since the waterproof inspection apparatus for a terminal according to the present invention is constructed so that the portion supporting the terminal 10 can be adjusted in the horizontal and vertical directions, it can be used commonly regardless of the type of the terminal 10 .

1 is a front view illustrating a structure of a waterproof test apparatus for a terminal according to a preferred embodiment of the present invention;
Fig. 2 is an enlarged view of the " A &
3 is a side view illustrating a structure of a waterproof test apparatus for a terminal according to a preferred embodiment of the present invention
4 is a front view for explaining a waterproof inspection process by a waterproof test apparatus for a terminal according to a preferred embodiment of the present invention
5 is an enlarged view of " B &
6 is a side view illustrating a waterproof inspection process by a waterproof inspection apparatus for a terminal according to a preferred embodiment of the present invention
FIGS. 7 to 9 are diagrams showing a state of a lumbar part for explaining a waterproof inspection process by a waterproof test apparatus for a terminal according to a preferred embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a waterproof test apparatus for a terminal according to the present invention will be described with reference to FIGS. 1 to 9.

FIG. 1 is an exploded perspective view of a waterproofing inspection apparatus for a terminal according to a preferred embodiment of the present invention. FIG. 2 is an enlarged view of an "A" FIG. 5 is a side view illustrating a structure of a waterproof test apparatus for a terminal according to an example.

As shown in these drawings, a waterproofing inspection apparatus for a terminal according to an embodiment of the present invention includes a chamber 100, a pressure regulating unit 200, a plurality of supporting plates 300, a mounting projection 400, And a displacement sensor 500 and a reader 600. It is possible to accurately determine whether the terminal 10 is airtight or not based on the deformation information of the terminal 10 through the combination of the configurations, So that it can be used in common regardless of the type of the terminal 10, and the damage of the liquid crystal can be prevented.

This will be described in more detail below for each configuration.

First, the chamber part 100 is a part where the inspection target terminal 10 is accommodated to provide an inspection space.

The inspection space of the chamber part 100 is configured to have a closed space from the external environment so that the pressure inside the inspection space can be adjusted.

To this end, the chamber part 100 includes a lower chamber 110 in the form of a box, which is fixed to the upper surface of the work table 101 and opened upward, and a lower chamber 110, And an upper chamber 120 in the form of an open box.

Here, the upper chamber 120 is installed to move up and down with a driving force of the lifting cylinder 121 in a state of being positioned in the upper chamber of the lower chamber 110, And the upper chamber 120 is supported by the plurality of guide rods 122 so that the upper and lower portions of the work table 101 are moved up and down Lt; / RTI >

Next, the pressure regulating part 200 is a part for changing the pressure of the inspection space in the chamber part 100.

The pressure regulator 200 discharges the air inside the inspection space to the outside through the air hole 111 formed to penetrate the chamber part 100 or supplies the outside air into the inspection space And an air pump configured to adjust a pressure of the inspection space.

Next, the plurality of receiving plates 300 are provided to determine the horizontal side position of the inspection target terminal 10.

In the embodiment of the present invention, the respective receiving plates 300 are respectively provided at the front and rear edge portions and left and right edge portions of the inspection space in the chamber portion 100, respectively, so as to support the front and rear surfaces and both sides of the terminal 10 .

That is, it is possible to prevent deterioration of the inspection reliability due to the flow in the horizontal direction during the waterproof inspection of the terminal 10 by the respective receiving plates 300.

Particularly, it is preferable that each of the receiving plates 300 is installed so as to be positionally changeable in the horizontal direction in the chamber part 100.

Considering that the width of the terminal 10, the length of the terminal 10, and the length of the terminal 10 are different from each other, the positions of the respective receiving plates 300 can be changed, So that it can be used in common.

Next, the covering protrusion 400 is a site where the inspection target terminal 10 is seated.

The engaging projections 400 protrude from opposite ends of two receiving plates facing each other among the receiving plates 300 (for example, two receiving plates on the front and rear sides or two receiving plates on both sides) So that the edges of the four corners of the terminal 10 are laid.

That is, considering that the rim portion of the terminal 10 has relatively less flexural deformation due to the joint portion with the mating member than the inner portion, the rim portion 400 is supported by the rim portion 400, Thereby minimizing damage to the terminal 10 caused by the user.

At this time, the engaging projected portion 400 is most preferably formed in a roller structure in order to minimize the contact area and minimize the damage of the terminal 10.

More preferably, the engaging protrusion 400 is disposed in the height direction of each of the receiving plates 300.

That is, considering that the thickness of the terminal 10 is different from each terminal 10, the height of each of the mounting projections 400 is adjustable so that the contact end 510 of the displacement sensor 500, which will be described later, So that it can always be in contact with the bottom surface of the terminal 10, so that the terminal 10 can be used in common regardless of the type of the terminal 10.

The displacement sensor 500 is a sensing device provided to measure the amount of deformation of the terminal 10 so as to sense the displacement of the contact terminal 510 and to read the deformation amount of the terminal 10. [ .

The displacement sensor 500 is provided so as to protrude into the inspection space through the center of the bottom surface of the chamber part 100 and has a contact end 510 at an end thereof, Respectively.

More specifically, the upper end of the contact end 510 constituting the displacement sensor 500 is located higher than the upper surface height of the upper surface of the top surface 400, and the terminal 10 is placed on each of the upper surfaces 400 The contact end 510 of the displacement sensor 500 can be kept in contact with the terminal 10 so that the problem of measurement failure due to non-contact between the displacement sensor 500 and the terminal 10 can be prevented .

Next, the reading unit 600 is a region for judging the air tightness of the terminal 10.

The reading unit 600 is programmed to determine the air tightness of the terminal 10 based on the pressure change in the inspection space and the displacement sensed by the displacement sensor 500 so that the waterproof inspection can be performed.

Particularly, the reading unit 600 is programmed to additionally determine the airtightness defect based on the rate of change of the deformation amount measured by the displacement sensor 500 while maintaining the inside of the inspection space at the same pressure for a predetermined time.

In other words, conventionally, since the air tightness is determined only by the maximum deformation amount of the terminal 10, the air tightness is released very slowly due to a minute gap and the sudden deformation of a specific portion due to the pressure adjusting operation in the inspection space It is impossible to detect air tightness due to a minute gap. Thus, according to the embodiment of the present invention, it is possible to confirm whether a defect is caused based on a rate of change according to a difference between a maximum deformation amount and a final deformation amount, So that the defect can be accurately grasped.

In addition, the reading unit 600 includes the display module 610 and is configured to display the reading result.

Hereinafter, the process of performing the waterproof inspection of the terminal using the waterproof inspection apparatus for a terminal according to the embodiment of the present invention will be described in more detail.

1 and 3, in a state where the upper chamber 120 constituting the chamber part 100 is moved up and away from the lower chamber 110, Is mounted on the upper surface of each of the engaging projections 400 between the respective receiving plates 300.

Of course, when the type of the terminal 10 to be inspected is changed, an operation of arranging the front and rear sides and the left and right sides of the terminal 10 to be supported accurately by adjusting the front, .

When the seating of the terminal 10 is completed, the operation of the lifting cylinder 121 is controlled so that the upper chamber 120 moves downward to close the lower chamber 110.

Thereby, the chamber part 100 is closed from the external environment as shown in FIGS. 4 to 6 attached hereto.

Thereafter, the operation of the pressure regulator 200 is controlled to increase the pressure of the inspection space in the chamber part 100. For example, by injecting air inside the inspection space, the pressure inside the inspection space reaches the set pressure.

Accordingly, the terminal 10 positioned in the inspection space is gradually deformed as shown in FIGS. 7 to 9 due to the pressure due to the air injection, and the displacement sensor 500 according to the deformation of the terminal 10 (L1, L2, L3) are provided to the reading unit 600. [

Therefore, the reading unit 600 can accurately recognize the airtightness of the terminal 10 based on the deformation amount sensing information provided from the displacement sensor 500.

That is, when the final displacement L3 of the terminal sensed by the displacement sensor 500 is larger than the previously set reference displacement, it is determined that the airtightness is defective. If the final displacement L3 is equal to or smaller than the predetermined reference displacement It is judged as good goods.

Particularly, the reading unit 600 additionally checks the rate of change of the displacements (L1, L2, L3) measured by the displacement sensor 500 while keeping the inside of the inspection space at the same pressure for a predetermined time, If it is larger than the set change rate, it is judged as an additional defect. At this time, the rate of change is a ratio to the difference between the maximum displacement (L2) and the final displacement (L3).

That is, when the rate of change is larger than a preset rate of change, it is estimated that there is a minute leakage portion, and the terminal 10 determines that the terminal 10 is a poor airtightness.

When the inspection of the air tightness of the terminal 10 is completed, the pressure of the inspection space of the chamber part 100 is released by the operation control of the pressure regulator 200, The upper chamber 120 is moved upward through the operation control of the upper chamber 121 to open the inspection space.

Thereafter, the terminal 10 that has been inspected is taken out, and a new inspection target terminal is placed on each of the mounting projections 400 to prepare for additional inspection.

As a result, the waterproof inspection apparatus for a terminal according to the present invention can check the airtightness of the terminal 10 and perform waterproof inspection. Particularly, since the horizontal direction side flow of the terminal 10 is prevented when the pressure of the chamber 100 is adjusted to the inside of the inspection space, the contact portion with the displacement sensor 500 can always be kept constant, Can be accurately performed, which can improve the inspection reliability.

In the waterproof test apparatus for a terminal according to the present invention, the portion where the terminal 10 is seated is configured to support the edge of the terminal 10, so that damage to the liquid crystal of the terminal 10 does not occur.

In addition, the waterproof test apparatus for a terminal according to the present invention can be used in common regardless of the type of the terminal 10, because the waterproof test apparatus for a terminal can be adjusted in the horizontal and vertical directions.

10. Terminal 100. The chamber part
101. Work table 102. Fixed frame
110. Lower chamber 120. Upper chamber
121. Lifting cylinder 122. Guide rod
200. Pressure regulator 300. Support plate
400. Overhanging part 500. Displacement sensor
510. Contact stage 600. Reading section
610. Display Module

Claims (5)

A chamber part for providing an inspection space while receiving an inspection target terminal;
A pressure regulator for changing a pressure of the inspection space in the chamber part;
A plurality of support plates provided in the inspection space in the chamber and supporting the front and rear sides and both sides of the inspection target terminal respectively;
A plurality of stacking protrusions on which the terminal is placed;
A displacement sensor protruding into the inspection space through a bottom surface of the chamber part and measuring a deformation amount based on a lift distance of the terminal while the bottom surface of the terminal is laid down;
And a reading unit for determining a defective airtightness of the terminal based on a pressure change in the inspection space and an amount of deformation measured by the displacement sensor,
The above-
And each of the receiving plates is protruded from both ends of the opposite surfaces of the two receiving plates opposite to each other so that the four corner rim portions of the terminal are laid on top of each other, Wherein the waterproof inspecting device for the terminal is installed. The method according to claim 1,
The chamber portion
A lower chamber in the form of a box fixed to the upper surface of the work table and opened upward,
And an upper chamber in the form of a box which is installed to be able to move up and down in the upper chamber of the lower chamber and which is opened downward to closely contact the upper surface of the lower chamber and provide the inspection space together with the lower chamber. Inspection device. The method according to claim 1,
Wherein each of the receiving plates is installed so as to be positionally changeable in a horizontal direction in the chamber portion. delete The method according to claim 1,
Wherein the reading unit is programmed to additionally determine an airtightness defect based on a rate of change of displacement measured by the displacement sensor while maintaining the inside of the inspection space at the same pressure for a predetermined time.

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