KR101383216B1 - Examination apparatus of ear jack using the road cell and examination method using the same - Google Patents

Abstract

The present invention relates to an ear jack performance test apparatus using a load cell and an ear jack performance test method using the same, and configured to be mounted on a complex test equipment by miniaturizing the equipment using a load cell, and shortened the inspection time compared to conventional equipment The present invention relates to an ear jack performance test apparatus using the loaded cell and an ear jack performance test method using the same.
The present invention includes a processor for transmitting a control signal and receiving measurement data when the ear plug and the ear jack are fastened and disconnected; An air cylinder operated by the control signal; An ear plug connected to the processor and interlocked with the air cylinder; Product mounting means connected to the processor, the ear jack to which the ear plug is to be seated is supported; And a pressure connected to the processor and installed between the ear plug and the air cylinder to convert the insertion force and the extraction force at the moment when the ear plug is fastened to and disconnected from the ear jack when the air cylinder is operated. An ear jack performance testing apparatus using a load cell including a conversion measuring means is disclosed.
In addition, by using the ear jack performance tester disclosed an ear jack performance test method consisting of the insertion force measuring step, the ear jack performance measurement step and the extraction force measuring step.

Description

Ear jack performance testing apparatus using load cell and ear jack performance testing method using the same {EXAMINATION APPARATUS OF EAR JACK USING THE ROAD CELL AND EXAMINATION METHOD USING THE SAME}

The present invention relates to an ear jack performance testing apparatus using a load cell and an ear jack performance testing method using the same, and in particular, by miniaturizing the equipment using a load cell was configured to be mounted on the complex inspection equipment, the inspection time compared to conventional equipment The present invention relates to an ear jack performance test apparatus using a load cell shortened and an ear jack performance test method using the same.

In general, the ear jack performance tester includes an insertion force when the ear plug is inserted into the ear jack, a pulling force when the ear plug is separated from the ear jack, and a signal transmission state when the ear plug is inserted into the ear jack. Will be measured.

Conventionally, in the case of the ear jack performance inspection equipment, the equipment was enlarged by using a push-pull gauge, and it was difficult to configure the equipment separately because it could not be mounted together in the composite inspection equipment.

This resulted in problems of increasing the volume of the ear jack performance tester, as well as weight and price.

The technical problem to be solved by the present invention is to provide a ear jack performance tester using a load cell as well as small and light by replacing the push-pull gauge with a load cell.

It is another object of the present invention to provide an ear jack performance test apparatus using a load cell which can be mounted on a single functional tester by miniaturizing equipment.

Another technical problem of the present invention is to provide an ear jack performance test method using an ear jack performance test apparatus using a load cell that can shorten the test time compared to conventional equipment.

In order to achieve the above object, the ear jack performance test apparatus using the load cell of the present invention and the ear jack performance test method using the same, first, the ear plug is inserted into and separated from the ear jack by the air cylinder and the air cylinder and the Ear plug detachment means for detaching the ear plug and the product seat means for seating the ear jack and pressure conversion measuring means and the air cylinder, installed between the ear plug and the air cylinder to measure the insertion force and the extraction force, the ear It provides an ear jack performance test apparatus using a load cell comprising a plug, the ear jack, the processor connected to the pressure conversion measuring means.

In addition, by using the ear jack performance tester to check the insertion force, the extraction force and the ear jack performance, the ear jack performance when the microphone signal is taken as the reference point when measuring the ear jack performance, or when the microphone signal is caught By measuring the average value for a certain period of time before and after the ear jack performance measurement point to reduce the measurement time, and provides an ear jack performance test method using an ear jack performance tester using a load cell capable of accurate measurement.

According to the present invention as described above, the product can be reduced in size as well as the product compared to the existing device, and due to the miniaturization of the equipment can be mounted in the multi-function test device can be implemented to control with a single processor In addition, compared to the conventional product inspection time can be significantly shortened.

1 is a schematic conceptual diagram according to an embodiment of an ear jack performance test apparatus using a load cell according to the present invention;
Figure 2 is a schematic connection state of the pressure conversion measuring means, ear plugs, ear jacks and processor according to an embodiment of the ear jack performance test apparatus using a load cell according to the present invention,
3 is a view showing the output waveform at the time of insertion and extraction of the ear plug and ear jack according to the present invention,
Figure 4 is a perspective view schematically showing the coupling state of the ear plug detachment means and the ear plug according to an embodiment of the ear jack performance test apparatus using a load cell according to the present invention,
5 is an exploded perspective view of FIG. 2;
6 is a view schematically showing a state in which an ear jack performance test apparatus using a load cell according to the present invention is mounted on a multifunctional tester;
7 is a view showing an ear jack performance test method according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail.

It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

First, Figure 1 illustrates the basic conceptual diagram of the present invention, first, the processor 100 has a force of the pressure conversion measuring means 500 generated during mechanical coupling between the ear jack 10 and the ear plug 300. Measure the value of, and at the same time sends a signal to the ear plug 300 and the signal received through the mechanical coupling of the ear jack 10, between the ear plug 300 receives the signal transmitted to the signal processing unit 130 The receiver 120 is configured.

That is, the present invention includes a processor 100 for transmitting the control signals (con1, con2), and receives the measurement data when the ear plug 300 and the ear jack 10 is fastened and disconnected; An air cylinder 200 operated by a control signal con1; An ear plug 300 connected to the processor 100 and interlocked with the air cylinder 200; Product mounting means 400 is connected to the processor 100, the ear jack 10 to which the ear plug 300 is fastened to be seated and supported; And is connected to the processor 100, is installed between the ear plug 300 and the air cylinder 200 is the moment when the ear plug 300 is fastened and disconnected to the ear jack 10 during the operation of the air cylinder 200 It comprises a pressure conversion measuring means 500 for converting the insertion force and the extraction force into an electrical signal.

The air cylinder 200 uses a small commercially available pneumatic compressor as a pneumatic compressor. Although not shown, the air cylinder 200 is operated by receiving power from a power supply unit (not shown) together with a control signal con1.

In addition, although not shown, a value processed through the processor 100 is represented through a separate monitor (not shown), and the configuration of the monitor may be variously applied within a known technology category.

On the other hand, the measurement data includes the insertion force, the extraction force and whether the contact when the ear plug 300 and the ear jack 10 is fastened and separated.

In addition, between the ear plug 300 and the pressure conversion measuring means 500 is further provided with ear plug detachment means 600 for detaching the ear plug 300, the processor 100 to measure with the ear plug 300 Signal transmitter 110 for transmitting an analog and digital signal to the; And a signal receiver 120 which receives the analog and digital signals received by the ear jack 10 from the ear plug 300 when the ear plug 300 and the ear jack 10 are fastened, and the signal receiver 120. ) Includes at least one resistor.

The ear plug 300 may receive a digital signal or an analog signal from the processor 100, and the signal may be coupled to the ear jack 10 by being pushed by the physical force generated through the air cylinder 200. The signal con2 received from 100 is transmitted to the ear jack.

Product seating means 400 is a mechanical structure that allows the ear jack 10, which is a test object, to be seated, and schematically shows that the ear jack 10 is seated.

In addition, / n on the drawing indicates that a plurality of signals are transmitted.

2 is a view showing a schematic connection state of the pressure conversion measuring means 500, the ear plug 300, the ear jack 10 and the processor 100 according to the present invention, referring to FIG.

The pressure conversion measuring means 500 is an electronic component that converts mechanical force into an electrical unit, and a load cell is used. The load cell measurement value refers to an electrical measurement value. 130).

The signal transmitter 110 transmits analog and digital signals to be transferred from the processor 100 to the ear plug 300, and the signal receiver 120 is mechanically coupled with the ear plug 300 and the ear jack 10. The ear jack 10 transmits the signal received from the ear plug 300 to the signal processing unit 130 through.

That is, M denotes a microphone signal, G denotes a ground signal, R denotes a right signal, and L denotes a left signal.

In general, the ear plug 300 is composed of four signals, such as a microphone, ground, right, left, and in the case of music, consists of three signals such as a microphone, ground, and a speaker. It can be configured to include more.

The load cell measurement value refers to the coupling force (insertion input) at the moment of mechanical coupling of the ear plug 300 and the ear jack 10, and, conversely, the ear plug 300 and the ear jack 10 by the air cylinder 200. Means that the force at the moment of separation is expressed by an electrical value.

The signal receiver 120 receives the control signal con2 transmitted from the processor 100 to the ear plug 300 through the signal transmitter 110 through the ear jack 10 by mechanical coupling. Loss or deformation of the signal appears by contact, and the degree of the signal is determined and transmitted to the signal processor 130.

That is, the processor 100 performs the mechanical / electrical performance test of the ear jack 10 to be measured, which measures performance specifications such as insertion force, extraction force, and contact resistance of the ear jack 10. .

Referring to the operation sequence according to the time flow of the present invention, first, the processor 100 instructs to generate a force (insertion force) for pushing the ear plug to the air cylinder 200 side, and by this force, the ear plug 300 is an ear jack. The ear plug 300 is inserted into the ear jack 10 by the mechanical structure.

At this time, the generated force is called an insertion force and is converted into an electrical force in the load cell at this moment and transferred to the processor 100 through an amplifier.

In the inserted state, the processor 100 transmits a signal to be transmitted toward the ear plug 300, which is transmitted to the signal processor 130 through the ear jack 10 and the signal receiver 120, and then the ear jack. The electrical performance, such as contact resistance and contact between the 10 and the ear plug 300 is analyzed and confirmed.

The ear plug 300 inserted through a series of processes receives the command of the departure from the processor 100 again and generates a force in a direction opposite to the insertion by the air cylinder 200 receiving the command from the processor 100. Accordingly, the ear plug 300 It is physically separated from the ear jack 10.

At this moment, the load cell is subjected to a force and outputs a force corresponding to the electrical value, which is transmitted to the processor 100 through an amplifier, which is measured and calculated as the extraction force.

3 is a view showing the output waveform when the ear plug 300 and the ear jack 10 are inserted and removed.

In the present invention, the reference point of the insertion force and the extraction force measurement is the instant when the microphone signal is input to the processor 100, or by determining the average value by measuring a predetermined time before and after the reference point from the instant when the microphone signal is input, The differential value is determined by measuring the differential value through the signal waveform input from the pressure conversion measuring means 500 to the signal processor 130.

That is, it is determined that the ear plug 300 is correctly inserted into the ear jack 10 at the moment when the signal corresponding to the microphone is input to the signal receiver 120 among the signals generated from the signal transmitter 110.

Similarly, the departure can be known by capturing the moment when the transmission signal transmitted from the processor 100 is transmitted as the reception signal on the basis of the departure (extraction) of the ear plug 300 from the ear jack 10.

Referring to FIG. 3, when the ear jack 10 and the ear plug 300 are correctly inserted, the M (microphone) signal goes up from low to high, and it is known that the high jack goes down from high in the state of being correctly separated (extracted). Can be.

In addition, it may be determined by taking an average value for a predetermined time before and after t ₀ , or by measuring a derivative value (a moment when the slope is negative) through a signal waveform.

Here, the derivative means the relative value of V ₀ (amplifier output value) before and after t ₀ .

That is, V ₀ (t ₀ )-V ₀ (t _-1 ) / t ₀ -t _-1 , and if you take multiple derivatives,

V ₀ (t _-1 )-V ₀ (t _-2 ) / t _-1 -t _-2 , V ₀ (t ₁ )-V ₀ (t ₀ ) / t ₁ -t ₀ , ... .

This also applies to extraction.

On the other hand, if the transmission signal V _t is a digital value, the reception signal is calculated as follows.

Receive signal = ( ₁ of R ₁ to R ₅ / R _n + _{1 of} R ₁ to R ₅ ) × V _t , (where R _n = contact resistance between ear jack and earplug)

In addition, the analog value is also calculated in the same way to measure the loss generated during the contact between the ear jack 10 and the ear plug 300, whether the ear jack 10 contact and mechanical terminal defects.

Figure 4 is a perspective view showing a coupling state of the ear plug detachment means 600 and the ear plug 300, Figure 5 is an exploded perspective view of Figure 4. Referring to Figures 4 and 5 as follows.

Ear plug detachable means 600 is a mechanical connection structure for transmitting the force generated in the ear plug 300 to the load cell, the upper cover 610 and the lower cover for coupling and fixing one side of the ear plug 300 ( 620 and the fastening bolt 630 for fastening the upper cover 610 and the lower cover 620.

In addition, the ear plug 300 may be configured such that a signal line is connected with the processor 100 through a connection connector.

In addition, the configuration as described above is easy to replace the ear plug 300.

FIG. 6 schematically illustrates a state in which an ear jack performance tester is mounted on a multifunction tester, and the present invention may be mounted alone on a multifunction tester connected to another tester, as shown in FIG. It can be combined as such.

That is, the conventional ear jack inspection device was considerable in volume and size so that it cannot be mounted like other functions on the top of the composite functional tester, but the ear jack inspection device of the present invention is available at the same time as other inspection devices in the commercially available composite functional tester. It is small enough to be mounted.

6, the functional inspection device mainly means parts inspection of the smart phone, but can also be used in the inspection device for parts that are divided into other uses, when applied to the combined functional tester combined with other functions, conventionally Due to the problem of volume, etc., but not mounted in the separate function space, but arranged in a separate space, due to the miniaturization implemented in the present invention shows that it can be mounted on the combined function tester with other functions at the same time.

7 is a view showing the ear jack performance test method according to the present invention.

An ear jack performance test method using the ear jack performance test apparatus using the load cell described above, Insertion force measuring step of measuring the insertion force when the ear plug 300 and the ear jack 10 is coupled (S100); Ear jack performance measurement step (S200) for transmitting a signal to the ear plug 300 in the state that the ear plug 300 and the ear jack 10 is fastened, and processes the signal received through the ear jack 10; And an extraction force measuring step (S300) of measuring the extraction force when the ear plug 300 is separated from the ear jack 10.

In this case, the signal received through the ear jack 10 includes at least one of a microphone, a ground, a light, a left, and a speaker signal. As it can be replaced, further description of the method is omitted.

10: Earjack
100: processor 110: signal transmitter
120: signal receiving unit 130: signal processing unit
200: air cylinder
300: ear plug
400: product seating means
500: pressure conversion measuring means
600: ear plug detachable means 610: top cover
620: lower cover 630: fastening bolt
S100: Insertion force measuring step
S200: Ear jack performance measurement step
S300: holding force measuring step

Claims (8)

A processor for transmitting a control signal and receiving measurement data when the ear plug and the ear jack are fastened and disconnected;
An air cylinder operated by the control signal;
An ear plug connected to the processor and interlocked with the air cylinder;
Product mounting means connected to the processor, the ear jack to which the ear plug is to be seated is supported; And
Pressure conversion coupled to the processor and installed between the ear plug and the air cylinder to convert the insertion force and the extraction force at the moment when the ear plug is fastened to and disconnected from the ear jack during operation of the air cylinder into an electrical signal Ear jack performance testing device using a load cell including a measuring means.
The method of claim 1, wherein the measurement data,
The insertion force, the extraction force and the ear jack performance test apparatus using a load cell, characterized in that it comprises a contact point when the ear plug and the ear jack when the connection and separation.
The method of claim 1,
Between the ear plug and the pressure conversion measuring means ear jack performance testing device using a load cell, characterized in that the ear plug detaching means for detaching the ear plug is further provided.
The processor of claim 1, wherein the processor includes:
A signal transmitter for transmitting analog and digital signals to be measured by the ear plugs; And
When the ear plug and the ear jack is fastened to include a signal receiving unit for receiving the analog and digital signals received by the ear jack from the ear plug,
Ear jack performance test apparatus using a load cell, characterized in that the signal receiver includes at least one resistor.
Insertion force measuring step of measuring the insertion force when the ear plug and the ear jack is coupled;
An ear jack performance measuring step of transmitting a signal to the ear plug while the ear plug and the ear jack are engaged, and processing a signal received through the ear jack; And
Ear jack performance test method using a ear jack performance tester using a load cell according to claim 4, wherein the ear plug comprises a step of measuring the extraction force when separating the ear plug from the ear jack.
The method of claim 5, wherein the signal received through the ear jack,
Ear jack performance test method comprising at least any one of a microphone, ground, light (Rigft), left (left) and speaker signal.
The method according to claim 6,
The reference point of the insertion force and the extraction force measurement is characterized in that the ear jack performance test method characterized in that determined at the moment of input.
The method according to claim 6,
The reference point for the insertion force and the extraction force is determined as an average value by measuring a predetermined time before and after the reference point from the moment when the microphone signal is input, or the derivative value through the signal waveform input from the pressure conversion measuring unit to the signal processor. Ear jack performance test method, characterized in that determined by measuring.

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