JPH0330841Y2 - - Google Patents

Description

[Detailed explanation of the invention] (a) Industrial application field This invention is a displacement sensor that is attached to a test piece to detect the displacement of the test piece when performing tensile, compression, fatigue tests, etc. on various materials. Detector protection device.

(b) Prior art Displacement detectors used in these material tests include differential transformers and magnetic scales. Generally, the main body of such a displacement detector is fixed outside the test piece, but due to the structure of the detector, the core side must be fixed to the test piece.
Therefore, when a displacement detector is attached to a test piece such as concrete that undergoes sudden buckling failure, the iron core attached to the test piece is suddenly pulled at the same time as the test piece breaks, causing the displacement detector to fail. It could have been damaged.

Conventionally, a displacement detector is often used that is not attached to the test piece, but is built into the actuator. However, this method of indirectly detecting the displacement of the test piece from the displacement of the actuator has a problem in that it is less accurate than the method of detecting the displacement of the test piece itself.

(c) Purpose This device has a displacement detector connected to a test piece.
It is an object of the present invention to provide a protection device for a displacement detector that protects a test piece from being damaged even when the test piece is destroyed.

(D) Structure The displacement detector protection device according to this invention connects the test piece and the displacement detector via an electromagnet, and when the test piece breaks, cuts off the power applied to the electromagnet and protects the test piece. By releasing the connection with the displacement detector, damage to the displacement detector is prevented.

(E) Embodiment FIG. 1 is an explanatory diagram schematically showing the structure of a protection device for a displacement detector according to an embodiment of this invention.

1 shows a test piece placed on a table. 2 is an actuator attached to the crosshead 3.

Reference numeral 4 indicates a winding portion of a displacement detector attached to the crosshead 3 via a fixture 5. 6
indicates an iron core constituting the displacement detector.
For example, a differential transformer is used for this displacement detector.

Reference numeral 8 indicates an extension rod connected to the test piece 1 via a fitting 9.

10 is an electromagnet attached to the lower end of the iron core 6. This electromagnet 10 connects the iron core 6 and the extension rod 8 by being supplied with power from a power source 11.

Reference numeral 12 indicates a microswitch as a breakage detection means for detecting breakage of the test piece 1. As shown in FIG. 2, four microswitches 12 are arranged at equal intervals around the extension rod 8 with a slight gap between them. The signal from this microswitch 12 is given to the power supply section 11 as a control signal.

Next, the operation of the displacement detector protection device shown in FIG. 1 will be explained.

During the test, the electromagnet 10 is supplied with power from the power supply unit 11, so that the iron core 6 and the extension rod 8
are connected.

When the test piece 1 breaks due to the load applied by the actuator 2, the test piece moves significantly not only in the axial direction but also in the radial direction. As the extension rod 8 also moves in the radial direction, it comes into contact with the micro-switches 12 arranged around it.

As a result, the microswitch 12 detects that the test piece 1 is broken, and provides the detection signal to the power supply section 11. The power supply section 11, which has been given the detection signal, cuts off the supply of power that has been given to the electromagnet 10. As a result, the attraction force of the electromagnet 10 is released, and the extension rod 8 and its attachment fitting 9 fall together with the test piece 1. However, the iron core 6 of the displacement detector is connected to the crosshead 3 via a spring 7.
Since the iron core is attached to the test piece 1, the iron core will not fall even if the test piece 1 breaks.

In the above-described embodiment, the breakage detection means for detecting the breakage of the test piece 1 was explained as being the microswitch 12 disposed around the extension rod 8.
However, the radial displacement of the extension rod 8 may be detected using, for example, a proximity switch. Moreover, the fracture detection of the test piece 1 may be performed by obtaining a test piece fracture signal from a measuring device that is supplied with the output of a displacement detector, for example.

(F) Effect The protection device for a displacement detector according to this invention includes an electromagnet interposed between the displacement detector that detects the displacement of the test piece and the test piece, and when the test piece breaks, a power supply is supplied to the electromagnet. By cutting off the power supplied to the test piece, the displacement detector is prevented from falling when the test piece falls, so even if the test piece breaks, the displacement detector will not be damaged.

As a result, the accuracy of the test can be improved because the displacement gauge can be directly attached to test specimens such as concrete, which are subject to rapid destruction.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram schematically showing the structure of a protection device for a displacement detector according to an embodiment of the invention, and FIG. 2 is a sectional view taken along the line AA in FIG. 1... Test piece, 2... Actuator, 4...
Winding part, 6... Iron core, 10... Electromagnet, 11...
Power supply section, 12...micro switch.

Claims (1)

[Scope of Claim for Utility Model Registration] (1) Fracture detection means for detecting fracture of a test piece, a displacement detector for detecting displacement of the test piece, and an electromagnet interposed between the test piece and connecting them. A protection device for a displacement detector, comprising: a power supply section that cuts off power supplied to the electromagnet based on a signal from the fracture detection means given when a test piece fractures. (2) The fracture detection means is a plurality of microswitches disposed around the extension rod connected to the test piece in order to detect radial movement of the extension rod, and the displacement detection means Utility model registration claim 1, characterized in that the transformer is a differential transformer consisting of a winding section attached to a crosshead via a fixing fitting and an iron core attached to the crosshead via a spring.
Displacement detector protection device as described in section.