JPS59666A - Wiring inspection system for electromagnetic coil - Google Patents

Abstract

PURPOSE:To inspect the wiring of each coil speedily when numbers of coils are integrated, by providing an inspecting device which includes excitation detecting elements at positions corresponding to array positions of the coils to be inspected. CONSTITUTION:The inspecting device 6 has the detecting elements R1, R2... at positions corresponding to the coils M1, M2... arranged in an electromagnetic device 5. The inspecting device 6 and electromagnetic device are so set for the inspection of the wiring of the coils that the detecting elements R1, R2... face the coils M1, M2..., and exciting currents are supplied from a power source 2 to the coils M1, M2.... On the other hand, the inspecting device is provided with light emitting diodes 8 connected to the detecting elements R1, R2.... Consequently, when a coil selected by a change-over switch 4 is excited, the corresponding light emitting diode 8 is turned on through the facing detecting element. Thus, the wiring inspection of every coil when numbers of coils are integrated is carried out speedily.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field of the Invention The present invention relates to an improvement in a method for inspecting coil wiring in electrical equipment in which electromagnetic coils are arranged.

Background of the technology When inspecting the wiring of electromagnetic coils (hereinafter simply referred to as coils), it is necessary to check for disconnection and polarity.

0 Prior Art and Problems Conventionally, when inspecting the wiring of coils, it is common to check whether each coil is energized or not, and to inspect the four characteristics.

However, for example, when a plurality of coils are arranged in an integrated manner, it takes a lot of time and effort to inspect each coil one by one. Furthermore, there was no effective means for detecting manufacturing errors such as incorrect wiring between valley coils at the inspection stage.

OBJECT OF THE INVENTION One object of the present invention is to eliminate the above-mentioned drawbacks of the conventional J11.
To provide a wiring inspection method capable of quickly inspecting the wiring of each coil when a large number of coils are arranged in a stacked manner.

Q. Structure of the Invention In order to achieve the above object, the coil wiring inspection method of the present invention includes an inspection device with an excitation detection element arranged at a position corresponding to the arrangement position of the coils to be inspected, and this inspection device is installed in the valley. The device is characterized in that it is set at the array position of the coils to detect the excitation state of each coil.

0 Embodiment of the Invention FIG. 1 is an explanatory diagram showing the principle of the present invention. In the same figure, 1
is the power supply for inspection, and 2 is the power supply for coil drive.

3 is a connector, 4 is a switch, 5 is a test device, 6 is an inspection device, and 8 is a display ring.

That is, the coil Mll Mll arranged in the forming device 5
Detecting element 1, 2 at the position corresponding to 2. . . . are arranged and an inspection device 6 is provided. This sensing element l+k
For L2+..., a reed switch, a Hall IC, etc. are used to detect that each coil Mll M2+... is excited.

When inspecting the coil fabric, use the detection rope R1e Rx*
The inspection device 6 and the electromagnetic device are set so that ... is placed facing each coil A'I+e 4m....

Each coil M++ Mzs... is supplied with an excitation If current from an IT power supply via a connector and a changeover switch 4.

On the other hand, in the inspection device 6, each detection element RIG R1@
Light emitting diodes 8 are provided which are respectively connected to... As a result, when the coil selected by the changeover switch 4 is excited, the opposing sensing element is gIIb.

By driving the detection element, power is supplied from the power source 1 to the corresponding light emitting diode 8, and the light emitting diode 8 is turned on. Therefore, if each coil h■+*M, . is correctly wired, the light emitting diode 8 corresponding to the coil selected by the switch 4 will be lit.

FIG. 2 and FIG. 3 are diagrams showing an embodiment of the 4ζ invention. In the embodiment, a magnetic drive device 1 is used as an electromagnetic uffi 5 to move a multi-pin print head (24 bins in this case). Electromagnetic drive device is connector 3° cable 3
It is connected to the inspection device main body 7 by a.

Needless to say, this cable 3a is connected to the driving power source 2 housed in the main body 7 via the switch 4.

The wiring inspection procedure will be explained below. First, electromagnetic drive wheel lf5
is set on the inspection device 6. That is, as shown in FIG. 3, #l! so that each coil 15 faces the Hall IC 16!
Position the magnetic drive device #5 on the inspection device jla using the positioning pin 17.

After the electromagnetic drive device 15 is set correctly, the changeover switch 4 on the tester main body 7 is turned on and off as appropriate, and it is checked whether the corresponding light emitting diode 8 blinks correctly. Further, in this embodiment, a test selection switch 9 is provided,
It is configured so that you can select automatic testing (auto) or manual testing (manual). If the selection switch 9 is set to manual mode, a manual test using the changeover switch 4 described above can be performed.

Furthermore, in the case of auto mode, by pressing the start button 11, the excitation of the carp/l/15 can be automatically switched. Furthermore, in the case of O)-mode, rung 1
3.14 indicates whether the calibration result is good or bad.

Effects of the Invention As described in detail above, according to the present invention, in an apparatus in which a large number of coils are arranged, it is possible to quickly and accurately perform a wire failure test on each coil. 'Furthermore, since the excitation state of each coil is constantly monitored by a separate detection element, it is also possible to detect failures during device operation, such as incorrect wiring between adjacent coils.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram showing the a principle of the present invention, Figures 51 and 2. FIG. 3 is a diagram showing an embodiment of the present invention. 4 is a changeover switch, 5 is a special device, 6 is an inspection device, 15
1 is a coil, and 16 is a sensing element such as a Hall IC.

Claims (1)

[Claims] A method for inspecting the wiring of an electromagnetic coil in an electromagnetic device provided with an electromagnetic coil, in which an excitation detection element is provided to detect that the above iiQg@coil is excited, and the detection element and the electromagnetic coil of the electromagnetic device are connected. A fabric inspection method for an electromagnetic coil, characterized in that the excitation state of the electromagnetic coil is inspected by the detection υ of the detection element, which are arranged facing each other.