KR101141433B1 - Rpm measurement device for vibration motor - Google Patents

Abstract

PURPOSE: An RPM measurement device of a vibration motor is provided to test a vibration motor with high accuracy in the assembling step of a cellular phone or previous step thereof. CONSTITUTION: A buffer member adheres closely to the lower surface of a vibration motor and buffers the vibration of the vibration motor. An acceleration sensor(20) adheres closely to the lower part of the buffer member and outputs an electric signal according to the vibration intensity of the vibration motor. A comparator(24) standardizes the output of the acceleration sensor by comparing with a predetermined reference signal. An inverter(26) changes the output of comparator into a stable waveform. A frequency counter(28) counts frequency from the output of the inverter. A calculation unit(30) computes the number of rotation of the vibration motor from the output of the frequency counter.

Description

(RPM measurement device for vibration motor)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for measuring the number of revolutions of a vibration motor mounted for imparting vibration to a mobile phone or the like, and more particularly to a device for measuring the number of revolutions of a vibration motor before assembling a mobile phone or other mobile terminal, And more particularly to an apparatus for measuring the number of revolutions of a vibration motor.

There are terminals that mount vibration motors for receiving silent calls among personal portable mobile terminals from conventional pagers to recent mobile phones. In recent years, there are many terminals equipped with vibration motors to enable the user to sense the response to the touch input among the terminals supporting the touch user interface.

For example, a mobile phone is a device in which state-of-the-art technologies are concentrated, and the performance of each component is an indicator of the performance of the mobile phone. The number of revolutions of the vibration motor mounted on the mobile phone also functions as an important performance indicator. If the number of revolutions of the mobile phone is weak, the user may miss an important call. Therefore, it is very important to test the rotation speed of the vibration motor before assembling the mobile phone.

Conventionally, in order to measure the number of revolutions of the vibration motor, a method of measuring the RPM of the motor using a test motor and driving the vibration motor was used.

However, as personal portable terminals such as cellular phones are gradually becoming thinner and shorter, the components mounted on the portable terminals are also being designed to be smaller and vibration motors are becoming smaller and smaller, it is very difficult to measure the number of revolutions by the conventional method There is a problem.

As shown in Fig. 1, on the upper surface of the vibration motor 10, there is attached a marking member 11 for concealing the internal components of the motor and for marking the rated light or the like. Therefore, when the RPM is measured using a laser, the marking member 11 must be removed and reattached. And the marking member 11 is often not removable after being released from the motor manufacturer.

In the figure, reference numeral 12 denotes a power cable for applying power to the vibration motor 10.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-described problems, and it is an object of the present invention to provide a vibration motor which measures the number of revolutions of a vibration motor mounted on a mobile phone, And an object of the present invention is to provide an apparatus for measuring the number of revolutions of a vibration motor.

According to an aspect of the present invention, there is provided an apparatus for measuring the number of revolutions of a vibration motor for measuring the number of revolutions of a vibration motor mounted on a portable terminal including a cellular phone, A buffer member closely attached to the lower surface to buffer vibrations of the vibration motor; An acceleration sensor closely attached to the lower portion of the buffer member and outputting an electrical signal according to the vibration intensity of the vibration motor; A comparator for comparing the output of the acceleration sensor with a predetermined reference signal to form a signal; An inverter for converting an output of the comparator into a stable waveform; A frequency counter for counting the frequency from the output of the inverter; And an arithmetic unit for calculating the number of revolutions of the vibration motor from the output of the frequency counter.

According to a preferred embodiment, the buffer member is a sponge.

According to a preferred embodiment, the buffer member is a spring.

According to a preferred embodiment of the present invention, the acceleration sensor is a sensor that detects vibrations in three axes of X, Y, and Z and outputs vibrations in respective axes to a predetermined waveform.

According to a preferred embodiment, a buffer circuit unit for stabilizing the output of the acceleration sensor is further provided at the rear end of the acceleration sensor.

According to the apparatus for measuring the number of revolutions of a vibration motor of the present invention, vibrations of a vibration motor are buffered between a lower surface of a vibration motor and an acceleration sensor through a buffer member such as a sponge or a spring, A vibration motor which is mounted on a portable terminal such as a mobile phone or the like by calculating the number of revolutions using a frequency counter by outputting a stabilized frequency signal from an inverter by shaping a waveform, removing noise and the like from the output of the acceleration sensor by using a comparator, It is possible to quickly and easily judge whether the parts are assembled in the assembling step of the mobile phone or the like or the parts before the assembling step of the mobile phone or the like to reduce the set defective rate due to the defective rotation speed.

1 is an external perspective view of a general vibration motor,
Fig. 2 is a sectional view showing an example of a state of measuring the number of revolutions of the vibration motor,
3 is a cross-sectional view showing another example of the rotational speed measurement state of the vibration motor,
4 is a block diagram schematically showing an apparatus for measuring the number of revolutions according to 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.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and a duplicate description thereof will be omitted.

In the following description, components such as "part" are components that perform certain roles, and may include circuit components, hardware components such as field-programmable gate arrays (FPGAs) or application specific integrated circuits (ASICs) it means. However, "part" is not meant to be limited to software or hardware. For example, "to" may be configured on an addressable storage medium and configured to play one or more processors. As an example, "to" may include certain processes, functions, attributes, subroutines, segments of program code, firmware, microcode, database, variables. Also, "part" may be included in a larger element or "part, " or may include smaller elements and" parts. &Quot; Also, "part" may have its own CPU.

2 and 3 illustrate an apparatus for measuring the number of revolutions of a vibration motor according to the present invention. Referring to FIGS. 2 and 3, a buffer member is positioned below the vibration motor 10, and an acceleration sensor 20 is located below the buffer member.

In the example of Fig. 2, the buffer member is the sponge 16. In the example of Fig. 3, the buffer member is the coil spring 17. Of course, the cushioning member may also be applied to other types of cushioning means such as leaf springs and the like. The buffer member cushions the vibration of the vibration motor 10 and transmits the vibration to the acceleration sensor. However, the vibration of the vibration motor 10 can be transmitted stably and completely, rather than transmitting vibration using a hard material.

For example, other members having rigidity may fluctuate unpredictably with the vibration of the vibration motor 10 in the contact position and contact area. However, the cushioning member such as the sponge 16, the coil spring 17 and the like can maintain the contact state with the vibration motor 10 despite the vibration of the vibration motor 10. Therefore, although the vibration power can be reduced, it is suitable to transmit the vibration of the vibration motor 10 to the acceleration sensor 20 as it is.

The acceleration sensor 20 is mounted on the PCB 18 (printed circuit board), and other circuit components for detecting the rotational speed of the vibration motor 10 are mounted on the PCB 18, though not shown. Other circuit components will be described later with reference to Fig.

As shown in FIGS. 2 and 3, a test power source is applied to the power cable 12 of the vibration motor 10 for driving the vibration motor 10. The test power source is an operation power source of the vibration motor 10 or a voltage level power source according to the test conditions.

4 is a block diagram schematically illustrating an apparatus for measuring the number of revolutions of a vibration motor according to the present invention. The detection system of the present invention will now be described with reference to the drawings.

4, the detection system of the present invention includes an acceleration sensor 20, a buffer circuit unit 22, a comparator 24, an inverter 26, a frequency counter 28, and an arithmetic unit 30 .

The acceleration sensor 20 receives the vibration of the vibration motor 10 through the buffer member 16 and outputs an electrical signal according to the vibration intensity. Preferably, the acceleration sensor 20 senses the vibrations of the three axes X, Y, and Z and outputs the vibration in each axis as a predetermined waveform. The electric signal output from the acceleration sensor 20 is, for example, an AC waveform.

Since the vibration of the vibration motor 10 is transmitted to the acceleration sensor 20 with the buffer member serving as a transmission medium, the output signal of the acceleration sensor 20 may be weak. Therefore, in order to stabilize a weak signal, the buffer circuit portion 22 is used as shown in the figure.

The comparator 24 is a component for shaping the output of the buffer circuit portion 22. The comparator 24 compares the predetermined reference signal with the output of the buffer circuit section 22. [ At this time, signals corresponding to noise are filtered and signals corresponding to the number of revolutions of the vibration motor 10 are output. The output of the comparator 24 is, for example, a square wave.

The inverter 26 is a component for stabilizing the first-order stabilized signal in the buffer circuit portion 22 in the second order. The inverter converts the square wave output of the comparator 24 into a waveform having a stable frequency. A frequency counter 28 is connected to the rear end of the inverter 26.

The frequency counter 28 counts the frequency of the AC waveform output from the inverter 26. The number of times counted by the frequency counter 28 is proportional to the number of revolutions of the vibration motor 10. [ For example, if the number of revolutions of the vibration motor 10 is large, the output of the frequency counter 28 will increase. As another example, if the number of rotations of the vibration motor 10 is small, the output of the frequency counter 28 decreases.

The operation unit 30 announces the number of revolutions of the vibration motor 10 from the output of the frequency counter 28. [ The arithmetic unit 30 may include a microprocessor or a microcomputer and may calculate the number of revolutions of the vibration motor 10 in a program written in the microprocessor or the microcomputer.

The calculation of the rotation speed of the vibration motor 10 by the calculation unit 30 can be performed by multiplying the output of the frequency counter 28 by an attenuation factor such as an elastic modulus of the cushioning member or the like. As another example, the data table may be constructed based on experience, and the output of the frequency counter 28 may be compared with the data table to extract the number of revolutions of the vibration motor 10.

The apparatus for measuring the number of revolutions of the vibration motor of the present invention may be configured to transmit data processed by the arithmetic unit 30 to another display apparatus or a test apparatus. Alternatively, although not described as an embodiment, the apparatus for measuring the number of revolutions of a vibration motor of the present invention may further include display means for displaying measured values. For example, a display means such as an LCD is provided and the number of revolutions of the vibration motor 10 to be measured can be displayed through the display window. Alternatively, a warning light or a beep or the like may be used to warn only the good or bad article of the measurement target visually or audibly.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims. It will be clear to those who have.

10: Vibration motor 12: Power cable
16: sponge 17: coil spring
18: PCB 20: Accelerometer
22: buffer circuit section 24: comparator
26: Inverter 28: Frequency counter
30:

Claims (5)

An apparatus for measuring the number of revolutions of a vibration motor for measuring the number of revolutions of a vibration motor mounted on a portable terminal including a cellular phone,
A buffer member closely attached to a lower surface of the vibration motor to buffer vibrations of the vibration motor;
An acceleration sensor closely attached to the lower portion of the buffer member and outputting an electrical signal according to the vibration intensity of the vibration motor;
A comparator for comparing the output of the acceleration sensor with a predetermined reference signal to form a signal;
An inverter for converting an output of the comparator into a stable waveform;
A frequency counter for counting the frequency from the output of the inverter; And
And an arithmetic unit for calculating the number of revolutions of the vibration motor from the output of the frequency counter,
And a buffer circuit unit for stabilizing the output of the acceleration sensor is provided at the rear end of the acceleration sensor.
The method according to claim 1,
Wherein the buffer member is a sponge.
The method according to claim 1,
Wherein the buffer member is a spring.
The method according to claim 1,
Wherein the acceleration sensor is a sensor that detects vibrations in three axes of X, Y, and Z and outputs a vibration in each axis to a predetermined waveform.
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