KR100792897B1 - Abrasion wear measuring instrument of rotor-shaft for alternator - Google Patents

Abstract

The present invention relates to an abrasion measuring device of an alternator rotor shaft, and more specifically, to an alternator rotor capable of quickly and accurately determining and selecting whether to remanufacture a rotor removed in an alternator remanufacturing process by measuring the wear degree of the alternator rotor shaft. It relates to the wear measurement of the shaft.

In order to achieve the above object, the present invention, the pressure sensor for sensing the pressure in accordance with the weight of the rotor entering through the hole; A measuring instrument driving sensor unit for driving a diameter measuring instrument through a control signal of a control unit receiving the sensing signal of the pressure sensor unit; And a pair of diameter measuring instruments for measuring the diameter of the rotor shaft by driving in a direction facing each other at both sides while driving perpendicular to the direction in which the rotor shaft enters by a drive signal of the measuring instrument driving sensor unit. It is done.

Alternator, rotor shaft, pressure sensor unit, measuring instrument drive sensor unit, diameter measuring instrument

Description

Abrasion wear measuring instrument of rotor-shaft for alternator

1 is a schematic configuration diagram showing a wear detector of an alternator rotor shaft according to the present invention,

Figure 2 is an operation diagram showing the operating state of the wear gauge of the rotor shaft for the alternator according to the present invention.

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

10 housing 10a hole

11 pressure sensor 12,13 instrument drive sensor

12a, 13a: sensor drive unit 14, 15: diameter measuring instrument

16 control unit 17 display unit

20: rotor shaft

The present invention relates to an abrasion measuring device for an alternator rotor shaft, and more particularly, to an abrasion measuring device for an alternator rotor shaft capable of quickly and accurately determining and selecting whether or not a rotor removed during an alternator remanufacturing process can be selected.

When inspecting the rotor, which is a key component of the alternator, when the automobile alternator is remanufactured, it is checked whether the slip ring of the rotor is worn. The inspection determines whether the rotor is remanufactured.

It is normal that the slip ring of the rotor used to some extent wears out. If this wear value is too large, it cannot be remanufactured and the rotor itself must be discarded.

Currently, remanufacturing companies check the diameter of the rotor shaft with the naked eye or plastic ruler to check the degree of wear of the slip ring.

In the conventional working method, the rotor is selected depending on the eye mass of the measuring instrument. However, since the diameter of the rotor shaft is about 2 cm, it is very difficult to obtain accurate measurement values even if a general ruler is used.

This is divided into rotors that can be remanufactured and rotors that are not remanufactured by only a few millimeters and the rotors that are discarded are completely lost to the remanufacturer. Determination of disposal).

In addition, since the current visual measurement method takes a lot of time, there is a problem that is also an obstacle to improving productivity.

Therefore, the present invention is invented to solve the above problems, the rotor shaft of the alternator for measuring the wear of the rotor to determine and select quickly and accurately whether the remanufactured rotor can be remanufactured in the alternator manufacturing process The purpose is to provide a wear meter.

Hereinafter, the features of the present invention for achieving the above object are as follows.

The wear measuring apparatus of the alternator rotor shaft according to the present invention includes: a pressure sensor unit for detecting a pressure according to the weight of the rotor entering through the hole;

A measuring instrument driving sensor unit for driving a diameter measuring instrument through a control signal of a control unit receiving the sensing signal of the pressure sensor unit;

And a pair of diameter measuring instruments for measuring the diameter of the rotor shaft by driving in a direction facing each other at both sides while driving perpendicular to the direction in which the rotor shaft enters by a drive signal of the measuring instrument driving sensor unit. It is done.

In particular, a sensor driving unit for controlling the diameter measuring unit to stop immediately when it touches the rotor shaft is characterized in that it is included in the measuring instrument drive sensor.

In addition, the diameter measured by the diameter meter is characterized in that the display by the display unit.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail.

1 is a schematic configuration diagram showing a wear detector of an alternator rotor shaft according to the present invention, and FIG. 2 is an operation diagram showing an operation state of the wear detector of an alternator rotor shaft according to the present invention.

The present invention relates to the wear gauge of the rotor shaft for the alternator to improve the remanufacturing productivity by quickly and accurately measuring the degree of wear of the slip ring of the rotor.

As shown in FIG. 1, the wear gauge of the rotor shaft for an alternator is an apparatus for measuring whether the rotor, which is a core component of the alternator, is worn, and is composed of a plurality of electronic sensors and measurement equipment.

The electronic sensor is a measuring instrument for driving the measurement equipment through the pressure sensor unit 11 for detecting the pressure according to the weight of the rotor and the control signal of the control unit 16 received the detection signal of the pressure sensor unit 11 It consists of drive sensor parts 12 and 13.

Diameter measuring instruments 14 and 15, which are measuring equipment driven by the measuring instrument driving sensor units 12 and 13, are equipment for measuring the diameter of the rotor, and more particularly, the rotor shaft 20, and the rotor shaft 20 ) Is driven perpendicular to the direction in which they enter, while driving in directions facing each other.

The pressure sensor unit 11 configured as described above can be automatically measured without any other manipulation after entering the rotor to help shorten the working time and thereby increase productivity.

In addition, since only the pressure of the weight of the rotor (about 3KG) needs to be measured, a high specification is not required, and thus, it can be introduced at a low cost.

In addition, since the diameter measuring devices 14 and 15 must measure an accurate diameter, it is required to have precise measuring capability.

These electronic sensors and measurement equipment is located in the housing 10 of the wear gauge of the rotor shaft for the alternator, the housing 10 is a pressure sensor 11 at the lower end of the hole (10a) that the rotor shaft 20 enters And measuring instruments driving sensor portions 12 and 13 and diameter measuring instruments 14 and 15 on both inner walls of the hole 10a.

In addition, the housing 10 has sensor drivers 12a and 13a for controlling the diameter measuring units 14 and 15 to stop immediately when they reach the rotor shaft.

On the other hand, the hole (10a) for inserting the rotor shaft 20 should be provided in plurality in accordance with the type of the rotor shaft 20 currently used.

That is, in the case of the current rotor shaft 20, two kinds of diameters are applied such as 15 pi, 17 pi, and the like, and the diameter of the hole 10a should also be manufactured in plurality accordingly.

However, when the precision of the diameter measuring devices 14 and 15 is high and a device for fixing the rotor to the hole 10a when the rotor is inserted, the measurement can be made with only a single hole 10a.

Hereinafter, the operation principle of the wear gauge of the alternator rotor shaft according to the present invention will be described with reference to FIG.

First, the rotor shaft 20 is inserted into a measuring instrument in which a hole 10a corresponding to the diameter of the alternator rotor shaft 20 is drilled.

In the pressure sensor unit 11 located at the lower end of the hole 10a, when the rotor shaft 20 is inserted, the sensor is automatically operated by the weight of the rotor shaft 20.

The detection signal of the pressure sensor unit 11 is transmitted to the measuring instrument drive sensor units 12 and 13 by the control signal of the control unit 16, and both diameter measuring units 14 and 15 are simultaneously driven to rotate the rotor shaft 20. Contact with the slip ring.

As soon as the diameter measuring units 14 and 15 and the rotor shaft 20 are in contact with each other, the diameter measuring units 14 and 15 are stopped by the sensor driving units 12a and 13a, and the moving distances of the diameter measuring units 14 and 15 are stopped. In accordance with the diameter of the rotor shaft 20 slip ring portion is automatically measured.

The diameter measured in this way is displayed through the normal display unit 17, and the measurement can be easily measured.

The wear gauge of the rotor shaft for the alternator can automatically realize that the measuring instrument measures the diameter of the rotor shaft 20 manually and automatically by applying an automated system when measuring the wear of the rotor shaft 20 in large quantities. It is desirable to be able to measure continuously.

As described above, according to the wear measuring apparatus of the alternator rotor shaft according to the present invention has the following effects.

1) It is possible to quickly and accurately determine whether the rotor removed during the alternator remanufacturing process can be remanufactured, and this rapid sorting can improve remanufacturing productivity.

2) Accurate measurement by electronic sensor and measuring equipment can prevent the disposal of the rotor by misjudgment of the measuring instrument. On the contrary, it can prevent the deterioration of the quality of remanufactured product by remanufacturing the rotor to be disposed.

3) Except for diameter measuring instruments and sensors, it does not require much higher precision, so machine manufacturing costs are also cheaper, and it may be easier to supply equipment to first-line remanufacturers.

Claims (3)

A pressure sensor unit for sensing a pressure according to the weight of the rotor entering through the hole; A measuring instrument driving sensor unit for driving a diameter measuring instrument through a control signal of a control unit receiving the sensing signal of the pressure sensor unit; And a pair of diameter measuring instruments measuring the diameter of the rotor shaft by driving in a direction facing each other at both sides while driving in a direction perpendicular to the direction in which the rotor shaft enters by a drive signal of the measuring instrument driving sensor unit. Wear measurement of rotor shaft for alternator. The method according to claim 1, The wear sensor of the rotor shaft for an alternator, characterized in that the sensor drive unit for controlling the diameter measuring unit to stop immediately when it touches the rotor shaft. The method according to claim 1, And the diameter measured by the diameter measuring instrument is displayed by the display unit.

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