JPS63131077A - Insulation tester - Google Patents

Abstract

PURPOSE:To achieve a higher reliability of an insulation test, by performing a continuity test of a loop on the hot line side prior to the start of the test. CONSTITUTION:Prior to the start of an insulation test, a continuity test of a loop is conducted on the hot line side. At this point, to check for continuity on the hot line side, relays RY1 and RY3 are turned ON while other relays are all turned OFF. Under such a condition, a loop is formed to cover a power switch 37, a primary coil 36, the ACU 5, a line L1, a relay RY1 and a point A as for the earth, the relay RY3, a line L2, the ACU (automatically binding unit) 5 and a set 3 to be measured. Thus, the ON action of a contact of the ACU 5 and the switch 37 of the set 3 is normal, the point A conducts to the ground to turn a voltage Va to a low level. Here, when the contact of the ACU 5 does not conduct or the switch 37 of the set 3 is at OFF, the voltage Va at the point A goes to a high level, which brings an output of an OR gate 35 to a high level. As a result, abnormality is displayed on a monitor to turn ON a buzzer or the like.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention is applicable to electric jaRs such as VTRs and CD players.
This invention relates to insulation testing equipment that performs insulation tests specified by safety standards.

[Summary of the invention]

In this invention, the dielectric strength test specified in the safety standard,
In insulation test equipment that performs insulation resistance tests, by conducting a continuity test on the loop on the hotline side before starting these insulation tests, abnormalities in the contacts in the loop can be detected, making it easy to automate insulation tests. It is planned to

[Conventional technology]

One of the safety standard tests for electrical equipment sets is to check the connection between the hot side of the set's outlet and the grounding point outside the set (points specified on the bottom plate, line out terminal, headphone jack, etc.). An insulation test is performed to measure the leakage current and resistance value when a specified voltage is applied between the two. That is, a test that measures leakage current when a voltage is applied is a dielectric strength test, and a test that measures a resistance value when a voltage is applied is an insulation resistance test.

When performing this insulation test, if there is a contact in the power supply system path, it must be checked that the contact is conductive, and also that the power switch of the outlet to be measured is turned on. I needed to check. When automating the insulation test, the connection point of the insulation voltage needle connection lead,
There is a contact point such as a power switch of the set under test between the specified ground and the earth point of the set under test.

[Problem that the invention seeks to solve]

Due to the hot-side cable and ground-side cable of the conventional insulation testing apparatus, it is difficult to confirm continuity of contacts or whether the power switch of the set under test is turned on.

Therefore, an object of the present invention is to provide an insulation testing device that can check continuity of contacts and confirm whether a power switch is turned on, and can automatically perform highly reliable tests.

[Means for solving problems]

In this invention, a predetermined DC voltage is selectively applied to one line on the primary side of the AC power line through the switch element, and the other line on the primary side of the AC power line is selectively applied through the switch element. Prior to the insulation test, a continuity test of the loop on the hotline side is performed using a predetermined DC voltage application point that is grounded.

[Effect]

The primary coil of the power transformer of the set under test.

A loop including the power switch and ACU is formed by turning on a switch element such as a relay. One end of this loop is grounded, and a predetermined DC voltage is applied to the other end. If the loop is conductive and normal, the voltage at the application point will be low level, and if the loop is abnormal, the voltage at the application point will be high level. This test is performed prior to the actual insulation test, and after confirming that the contacts are normal, the insulation test is started.

〔Example〕

An embodiment of the invention will be described with reference to the drawings.

In this embodiment, when manufacturing a set such as a CD player, the insulation test of the set to be measured is automatically performed in the dielectric strength process. In FIG. 1, 1 is a conveyor, 2 is a pallet conveyed by the conveyor 1, and 3, indicated by one point tjibs, is a set to be measured placed on the pallet 2. In the insulation test process, the pallet 2 is fixed by stoppers 4A and 4B protruded from the underside of the conveyor 1 by an air cylinder, and then the jig pins 6A and 6B of the ACU (automatic connecting unit) 5 move forward to secure the pallet. ACU5 contact plate installed on connector 2? A, 7B
and jig bins 6A, 6B are connected.

FIG. 2 shows the entirety of this embodiment. A pressure-resistant needle 8, a monitor 9, a test adapter 10, a microcomputer 11, a patrol light 12, and a buzzer 13 are installed at a position where the insulation test process is performed. The microcomputer 11 is for controlling automatically performing the insulation test, and is used to control the pressure-resistant needle 8. Monitor 9. Test adapter 10
is controlled by a microcomputer 11. If the results of the insulation voltage test or insulation resistance test do not meet the safety standards, this will be displayed on the monitor 9, and
The patrol light 12 is blinked and the buzzer 13 is turned on. In this invention, prior to the actual insulation test, a continuity test is performed on each of the hot side and the ground side. In this continuity test, if either line is non-conductive, the patrol light 12 is blinked and the buzzer 13 is turned on.

Since high voltage is used during insulation testing, a translucent safety cover 14 is placed over the set to be measured 3, as shown by the two-dot chain line.
be placed on top. Since the specified grounding point of the set to be measured 3 is provided on the bottom plate, when the pallet 2 is locked in a predetermined position by the stoppers 4A and 4B, the grounding unit 15 is turned on after the ACU 5 is turned on.
The air cylinder 16 is turned on. Air cylinder 16
A pair of contacts 17A, 17B are attached to the tip of the operating shaft of Children 17A and 17B are brought into contact. In addition, in FIG. 2, the grounding unit 15 is illustrated in an enlarged manner.

FIG. 3 shows a configuration for connecting the set to be measured 3 and the test device using the ACU 5. As shown in FIG. For Bullet 2,
The receiver is provided with a portion 18, and the receiver is provided with a movable portion 1 opposite to the portion 18.
9 is provided. The movable part 19 is an air cylinder 20
A plurality of jig bin groups 76 provided on the movable portion 19 are connected to a plurality of contact plate groups provided on the receiver portion 18, respectively. The aforementioned jig bin 6A
.

6B and the contact plates 7A and 7B are part of the jig pin group 6 and the contact plate group 7. Furthermore, the receiver of the ACU 5 connects the power plug 22 of the set to be measured 3 to the outlet 21 provided in the section 18.
is inserted, and the set to be measured 3 is connected to the pressure gauge 8 through the ACU 5.

A test adapter 10 is provided to conduct continuity tests on the hot side and the ground side of the AC power line. As shown in FIG.
A relay control circuit 30 that controls the
12) and the ground, a series circuit of resistors 31 and 32, a series circuit of resistors 33 and 34, and an OR gate 35 that outputs a signal indicating the result of the continuity test.

The OR gate 35 is supplied with the voltage Va at the connection point between the resistors 31 and 32 (point A) and the voltage vb at the connection point between the resistors 33 and 34 (point B). When the voltage Va is at a high level, the hot side means non-conduction (abnormality), and when the voltage Vb is at a high level, the ground side means non-conduction (abnormality).
When the voltages Va and Vb are at low level, it means conduction (normal).

The series circuit of the primary coil 36 of the power transformer of the set to be measured 3 and the power switch 37 is connected between the contact plates 7A and 7B of the ACU 5 via the outlet 21 and the power plug 22 as described above. A jig bottle 6A connected to the contact plate 7A is connected to the hot side of the pressure gauge 8 via a hot side line L1, and is connected to the contact plate 7B. Jig bin 6B
is connected to the hot side of the pressure gauge 8 via a hot side line L2 including a relay RY2. This line L2 and resistance 3
A relay RY1 is inserted between the connection point (A point) of lines L2 and 32, and a relay RY3 is inserted between the line L2 and the ground.

One contact 17A connected to the specified earth point of the set to be measured 3 is connected to the pressure gauge 8 via the earth side line L3.
connected to the ground side of the The other contactor 17B is connected to the ground side of the pressure gauge 8 via a line L4 including a relay RY5. Relay RY4 is inserted between this line L4 and the connection point (point B) of resistors 33 and 34, and line L4
A relay RY6 is inserted between the ground and the ground.

In the above configuration, relays RYI and RY3 are turned on to check continuity on the hot side. All other relays are OFF. In this state, [Earth→RY
3 → line L2-AC [J5 = power switch 37 of set to be measured 3 → primary coil 36 → ACU5 → line L1
→RYI→Point A] loop is formed. Therefore, A.C.
When the contact of U5 and the power switch 37 of the set under test 3 are turned on normally, the point A falls to the ground, and the voltage Va becomes low level. If the contacts of the ACU 5 are not conductive, or the power switch 37 of the set under test 3 is OFF.
If F, the voltage Va becomes high level, and the output of the OR gate 35 becomes high level. As a result, the monitor 9 displays an indication that continuity is NG (abnormal), and the patrol light 1
2 blinks and the buzzer 13 is turned on. This alarm will continue unless a person turns on the manual release of the line control CPU, and the next step, that is, the insulation test will not start. Also, stoppers 4A and 4B are locked,
The next cent to be measured does not flow in unless a person removes the set to be measured from the conveyor 1.

Continuity on the ground side is provided by relay RY4. Only RY6 is turned on. In this state, [earth → RY6 → line L4-
Specified earth point of Sesoto 3 to be measured (contact 17A,
17B)→line L3-RY4-point B] loop is formed. When the contacts 17A and 17B are electrically connected through the metal part of the designated earth point, point B falls to the earth, and the voltage vb becomes low level. When it is not conducting, the voltage vb is at a high level, and the output of the OR gate 35 is at a high level. This causes an alarm similar to the one described above.

; When the continuity test on the L foot and the ground side is completed and the continuity test results are normal, relays RYI, RY3. RY4
．． ．． RY6 is returned to OFF, and all relays are turned OFF. Then, the insulation test is started.

During the insulation test, relay RY2 is turned on as shown in Figure 1.
The hot side and ground side of the AC outlet of set 3 to be measured are set to the same potential as the hot side of the pressure-resistant needle.
In addition, relay RY5 is turned on, and contacts 17A and 17B
The interval is shorted.

In this state, a dielectric strength test and an insulation resistance test are sequentially performed under the control of the measuring microcomputer 11.

〔Effect of the invention〕

According to this invention, the AC power line of the set under test is
With this provision, the contacts can be automatically checked prior to the actual insulation test, improving the reliability of the insulation test and automating the insulation test.

[Brief explanation of the drawing]

FIG. 1 is a connection diagram of an embodiment of the present invention, FIG. 2 is a perspective view showing an overview of the entire system of an embodiment of the invention, and FIG.
The figure is a perspective view used to explain the ACU in one embodiment of the present invention. Explanation of main symbols in the drawings 1: Conveyor, 2: Pallet, 3: Set to be measured,
5: ACU, 8: Pressure-resistant needle, 10: Test adapter, RYI to RY6: Relay, 30: Relay control circuit.

Claims (1)

[Claims] A predetermined DC voltage is selectively applied to one line on the primary side of the AC power supply line via a switch element, and the AC
The other line on the primary side of the power supply line is selectively grounded via a switch element, and the continuity test of the loop on the hot line side is performed using the voltage at the application point of the predetermined DC voltage prior to the insulation test. Insulation test equipment made like this.