KR102283940B1 - A motor test device - Google Patents

Abstract

The present invention relates to an apparatus for testing a motor based on a vertical slide movement, capable of increasing the efficiency of a test due to a specific shape unlike an existing method, in which a serious issue regarding an inspection capability, accuracy or the like can be caused due to a structural limitation implemented by a simple operation, as well as maximizing detectability by failure type besides simple performance by carrying out additional items such as consumption-current and resistance measurement, soundwave measurement and the like, thereby making a test result more accurate and improving the reliability of the test, and improving efficiency in terms of use as well as control convenience by facilitating handling, use, and maintenance through a structure differentiated in comparison to the existing method. The apparatus comprises: a body (10) having a set shape; a current detection part (20) stored in the body to measure a consumption current as well as terminal resistance of a test target motor (A) while leading the supply of a current to an electrode pin (2); a fixing frame (30) integrated with the current detection part, and located and confined in an edge area of the body; a support frame (40) held at a predetermined distance from an upper side of the fixing frame; placement blocks (50) stacked and combined vertically in the same size as that of the support frame, and including an accepting hole (51) for interposing a terminal panel (1), and a microphone (3) for sensing vibrations of the motor and the electrode pin (2) connected with the current detection part on the accepting hole; and a cover part (60) leading the electrode pin and the microphone in the accepting hole to be kept in contact with the test target motor by pressing the terminal panel downward while being hinged to an upper side of the placement blocks.

Description

A motor test device based on vertical slide flow

The present invention relates to a series of inspection devices for determining whether a motor connected on a terminal panel is defective, and more particularly, fatal problems such as inspection ability or accuracy are caused by structural limitations implemented depending on simple operation. In addition to increasing inspection efficiency due to a specific shape, additional inspection items such as current consumption, resistance measurement, and sound wave measurement were performed to maximize the detection power for each defect type other than simple performance, resulting in more precise inspection results and inspection reliability. It relates to a motor inspection device based on up-and-down slide flow that improves the convenience and efficiency of operation due to the ease of handling, use, maintenance, and maintenance resulting from the structure differentiated from the existing ones.

With the popularization and miniaturization of mobile communication terminals such as cell phones, the demand for vibration motors for realizing an incoming call detection function is increasing.

These vibration motors are divided into a rod-shaped cylinder type and a coin-shaped coin type. The cylinder type is spherical and thick, which makes it impractical, so the coin type is the predominant type.

On the other hand, the vibration motor as described above has excessive noise or defective products that do not operate properly due to defects in materials or manufacturing problems during the production process.

However, due to the mass production of motors, if there is an inspection process of whether the motor is good or bad, a fatal problem that can reduce the production speed of the motor is induced. Rather than doing this, some samples are extracted and the motor is inspected.

In addition, as an inspection method to check whether the motor is defective, the waveform of the current flowing through the motor and the noise generated by driving the motor are checked through an oscilloscope or inspected depending on the inspector's hearing. As a result, the inspection depends on the surrounding environment and inspector. There is a problem in that the results can be different and the overall production speed of the motor is lowered by lowering the inspection speed because it is performed directly by the inspector.

Registered Patent Publication No. 10-0193630 (Registered on Feb. 4, 1999)

The present invention was created to actively solve the above problems, and it is a motor inspection device that maximizes the utility value of the inspection device due to the various configurations differentiated from the existing ones, while improving the reliability of the inspection as well as providing a precise and accurate inspection action. Providing is the challenge we are trying to solve.

In addition, the present invention is a motor inspection that can determine whether the motor to be inspected is abnormal or defective without error because the current consumption of the motor and the sound wave caused by the vibration of the motor are simultaneously precisely measured based on the position control of the various configurations that are stable and reliable. Providing a device is another challenge.

The motor inspection apparatus 100 based on the vertical slide flow proposed in the present invention in order to achieve the above-mentioned problem is as follows.

The motor inspection device 100 includes a main body 10 of a set shape; a current detection unit 20 accommodated in the body and leading to supply of current to the electrode pin 2 while measuring the terminal resistance or current consumption of the motor to be inspected (A); a fixed frame 30 integrated with the current detection unit and constrained in position to the edge region of the body; a support frame 40 oscillating up and down by a set distance by tension from the upper surface of the fixed frame; It is made of the same standard as the support frame and is stacked up and down, and the receiving hole 51 for interposition of the terminal panel 1 and the electrode pin 2 connected with the current detection unit on the receiving hole and a microphone for detecting vibration of the motor ( 3) a seating block 50 including; It is characterized in that it is composed of; a cover part 60 that keeps the electrode pin and the microphone inside the receiving hole in contact with the motor to be inspected;

In addition, the motor (A) is inserted through the recessed groove 52 formed inside the receiving hole 51, the recess 52 is an electrode pin 2 for measuring whether the current consumption of the motor is defective. It is characterized in that simultaneous measurement is allowed as the space protruding upward and the space in which the microphone 3 is built-in to measure sound waves by motor vibration are divided.

In addition, the cover part 60 further includes a pressing tool 61 having a set shape on one surface in contact with the terminal panel 1 , and the pressing tool 61 presses down the terminal panel to obtain a receiving hole. (51) is characterized in that it contributes to uniform pressure on the top and to ensure the horizontal position of the terminal panel.

In addition, the cover part 60 is characterized in that it is discriminated whether it is opened or closed through a detection switch 70 provided on either side of the seating block 50 .

In addition, the support frame 40 and the seating block 50 include at least one or more shafts 80 to have a variable vertical position, and the electrode pin 2 is mounted through the cover part 60 . When the block 50 is pressed, it is characterized in that it protrudes upward from the recess 52 due to the accompanying downward movement of the seating block and the support frame 40 by a set distance.

In addition, the pressing tool 61 forces the contact state between the microphone 3 located inside the recess 52 and the motor A due to the downward pressing of the seating block 50 and the electrode pins by downward deployment of the seating block. (2) is characterized in that it protrudes upward to be connected with the motor.

According to the present invention having the above-described configuration, since the predetermined cover, the seating block, the support frame, etc. operate organically with each other, it is based on the inspection by a fully automatic device, and thus the inspection efficiency and accuracy are improved compared to the existing ones.

In particular, the present invention can determine whether the internal coil is disconnected or short-circuited by measuring the resistance value of the motor terminal, as well as quickly and precisely determining whether or not it meets the set standard value due to the measurement of the current consumption of the motor. It has the effect of contributing to the increase of productivity as well as shortening of the overall process time while improving the productivity.

In addition, in the present invention, these various configurations are extremely simplified compared to the existing ones and are closely organically coupled to each other, and the accuracy of position control is greatly improved, so that the ease of handling, use, maintenance, and maintenance is secured.

1 is a perspective view of a motor inspection device configured according to a preferred embodiment of the present invention.
Figure 2 is a perspective view showing an open state of the motor inspection device proposed in the present invention.
Figure 3 is an exploded perspective view of the main part of Figure 1;
4 to 5 are perspective views showing details of the electrode pins and the microphones proposed in the present invention.
6 to 7 are perspective views showing separately the embodiment of the motor inspection device proposed in the present invention.

Hereinafter, with reference to the accompanying drawings, it will be collectively described for the configuration of the present invention and the resulting action and effect.

Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only this embodiment serves to complete the disclosure of the present invention, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. In addition, like reference numerals refer to like elements throughout the specification.

The present invention is disclosed with respect to a series of inspection devices for determining whether a motor to be inspected is defective.

Above all, the present invention not only increases inspection efficiency due to a specific shape, but also increases current consumption and resistance, measurement of sound waves, etc. In addition to simple performance, the detection power of each defect type is maximized by additional inspection items of Note that it is related to the motor inspection apparatus 100 based on the up-and-down slide flow in which the convenience of operation or the efficiency of use is improved.

As shown in Figs. 1 to 7, the motor inspection apparatus 100 proposed as a feature of the present invention contributes to enabling the inspector to easily and precisely check the current characteristics and vibration characteristics of the motor to be inspected.

To this end, the motor inspection device 100 is a body 10 of a set shape; and the terminal resistance value or current consumption of the motor A to be inspected while being accommodated in the body and leading the supply of current to the electrode pins 2 A current detecting unit 20 for measuring; and a fixed frame 30 integrated with the current detecting unit and constrained in position to the edge region of the body; and a support frame 40 that fluctuates up and down by a set distance from the upper surface of the fixed frame by tension; And, it is made of the same standard as the support frame, and is stacked up and down, and the receiving hole 51 for interposition of the terminal panel 1 and the electrode pin 2 connected to the current detection unit on the receiving hole for detecting the vibration of the motor A seating block 50 including a microphone 3; and a cover part 60 that allows the electrode pins and the microphone inside the accommodation hole to remain in contact with the motor to be inspected as the terminal panel is pressed down while hinged toward the upper surface of the seating block );

Here, the motor (A) is inserted through a recess (52) recessed inside the receiving hole (51), and the recess (52) has an electrode pin (2) for measuring whether the current consumption of the motor is defective. Simultaneous measurement may be allowed as the space protruding and the space in which the microphone 3 is built in order to measure sound waves by motor vibration are divided.

As shown in the drawings, the main body 10 may be configured to accommodate or mount various components to be described later, and it is obvious that the main body 10 is not limited to any specific shape.

The current detection unit 20 should be accommodated in the body as described above and formed to be connected to the electrode pins 2, which should be understood as an absolute measure of the resistance value or current consumption of the motor A.

That is, in the present invention, there is a better utilization value as it is possible to detect each type of defect in addition to the simple performance of the motor, unlike the existing method that simply inspects the presence or absence of operation (ON/OFF), thereby providing high-quality products to consumers. Therefore, it will secure competitiveness in terms of trust.

For example, when the resistance of the motor terminals (-, +) is measured through the current detection unit 20, it is possible to check whether the internal coil of the motor is disconnected or short-circuited. can be detected, or an over-failure can be detected with current consumption exceeding the standard value. At this time, since the required current measuring circuit and the like are well-known matters, not the subject matter of the present invention, detailed description thereof will be omitted.

The fixed frame 30 is attached to the main body so that various elements such as the support frame and the seating block are stacked and arranged in a stable state, and a predetermined through-hole through which the current detection unit can vertically communicate with the center must be drilled. .

The support frame 40 is given a set level of tension on the fixed frame based on the shaft to be described later, and thereafter, in a state integrated with the seating block, by swinging the shaft up and down by a set width by means of the cover part, the electrode pin Exposure is controlled.

The seating block 50 is a configuration of the main part of the present invention, and includes a setting space in which the terminal panel can be accommodated and various configurations capable of simultaneously measuring the current and vibration of the motor. In this regard, it will be described in detail below together with the related drawings.

The cover part 60 may be provided with a structure in which the position is switched upward of the seating block as shown in the drawing, and preferably, the hinge is rotated in the seating block direction to determine whether to open or close.

In addition, the cover part 60 further includes a pressing tool 61 having a set shape on one surface in contact with the terminal panel 1 , and the pressing tool 61 presses down the terminal panel to obtain a receiving hole. (51) is characterized in that it contributes to uniform pressure on the top and to ensure the horizontal position of the terminal panel.

That is, in order to more efficiently operate the motor inspection device of the present invention, it is essential to ensure the position of the terminal panel. can

On the other hand, the cover part 60 can be discriminated whether open or closed through a detection switch 70 provided on either side of the seating block 50 .

The detection switch 70 may be a normal limit switch, and through this, when passing through a predetermined arbitrary point, the automatic control is possible by blocking the current flowing to the power motor.

The support frame 40 and the seating block 50 include at least one or more shafts 80 to have a variable vertical position.

At this time, the electrode pin 2 protrudes upward from the recess 52 due to the downward movement of the seating block and the support frame 40 by a set distance when the seating block 50 is pressed through the cover part 60 .

In addition, the pressure tool 61 forces the contact state between the microphone 3 located inside the recess 52 and the motor A due to the downward pressing of the seating block 50, and the electrode pins ( 2) is protruded upward to connect with the motor.

According to the present invention having the above-described configuration, since the predetermined cover, the seating block, the support frame, etc. operate organically with each other, it is based on the inspection by a fully automatic device, and thus the inspection efficiency and accuracy are improved compared to the existing ones.

In particular, the present invention can determine whether the internal coil is disconnected or short-circuited by measuring the resistance value of the motor terminal, as well as quickly and precisely determining whether or not it meets the set standard value due to the measurement of the current consumption of the motor. It has the effect of contributing to the increase of productivity as well as shortening of the overall process time while improving the productivity.

In addition, in the present invention, these various configurations are extremely simplified compared to the existing ones and are closely organically coupled to each other, and the accuracy of position control is greatly improved, so that the ease of handling, use, maintenance, and maintenance is secured.

1. Terminal panel
2. Electrode pins
3. Microphone
10. Body
20. Current detection unit
30. Fixed frame
40. Support frame
50. Seating block
60. Cover
70. Detection switch
80. Shaft
100. Motor inspection device
A. Motor

Claims (5)

Set-shaped body 10;
a current detection unit 20 accommodated in the body and leading to supply of current to the electrode pin 2 while measuring the terminal resistance value or current consumption of the motor to be inspected (A);
a fixed frame 30 integrated with the current detection unit and constrained in position to the edge region of the body;
a support frame 40 oscillating up and down by a set distance by tension from the upper surface of the fixed frame;
It is made of the same standard as the support frame and is stacked up and down, and the receiving hole 51 for interposition of the terminal panel 1 and the electrode pin 2 connected to the current detection unit on the receiving hole and a microphone for detecting vibration of the motor ( 3) a seating block 50 including;
a cover part 60 for keeping the electrode pins and the microphone inside the receiving hole in contact with the motor to be inspected as the terminal panel is pressed downward while the hinge rotates toward the upper surface of the seating block;
Motor inspection device based on the vertical slide flow, characterized in that consisting of.
According to claim 1,
The motor (A) is inserted through the recessed groove (52) formed inside the receiving hole (51),
The groove 52 is divided into a space in which the electrode pin 2 protrudes upward for measuring whether the current consumption of the motor is defective and a space in which the microphone 3 is built in to measure sound waves caused by motor vibration. A motor inspection device based on up-and-down slide flow, including allowing measurements to be made.
According to claim 1,
The cover part 60 includes a pressing tool 61 having a set shape on one surface in contact with the terminal panel 1 is further formed,
The pressure tool 61 presses down the terminal panel, thereby contributing to uniform pressure on the receiving hole 51 and ensuring the horizontal position of the terminal panel.
According to claim 1,
The cover part 60 is a motor inspection device based on the vertical slide flow, which includes discriminating whether open or closed through a detection switch 70 provided on either side of the seating block 50 .
According to claim 1,
The support frame 40 and the seating block 50 include at least one or more shafts 80 to have a variable vertical position,
The electrode pin (2) protrudes upward from the recess (52) due to the downward movement of the seating block and the support frame (40) by a set distance when the seating block (50) is pressed through the cover part (60) Motor inspection device based on vertical slide flow.

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