RU1810787C - Device for testing tree bark under compression - Google Patents

Abstract

The invention relates to a test technique and can be used to determine the tensile strength of a tree bark without damaging it. The device includes a gear motor equipped with a pulse sensor of the number of revolutions of the drive shaft connected to the spindle of the carriage acting on the spring loading the rod with the indenter. moved: moved in the guide sleeve containing the brake device, the bed is fixed on the shelf of the socket, including the bracket, stop screws, elastic pad and stitches, and the movement of the indenter fixed on the rod is recorded by a sensor connected together with a pulse revolution sensor gear motor with a block controlling the operation of the brake device and gear motor. 3 ill.

Description

(L

G

The invention relates to a test technique and can be used to determine the tensile strength of a tree bark without damaging it.

The purpose of the invention is to improve the accuracy of tests and the performance of the device.

In FIG. 1 and 2 shows a schematic diagram of the proposed device; in FIG. 3 is a block diagram of a device control system.

The device (Figs. 1 and 2) comprises a frame 1 with a geared motor 2 equipped with a pulsed IDR speed sensor (Fig. 3) and which rotates the spindle 3 kinematically connected with the carriage 4 moving along the guides 5 of the frame. The carriage 4 acts on the spring 6, mounted on the rod 7, linearly moving in the guide sleeve 8. On the rod through a hinge is fixed

self-adjusting indenter normal to the cortex 9. The guide sleeve 8 contains a brake device 10 and a sensor 11 for moving the indenter 9 is mounted on it, which is in contact with the plate 12 and made in the form of an indicator, the arrow of which bends from the petal plate is fixed on the arrow (not shown in Fig. not shown ) sliding along isolated from each other coils of a high-resistance wire.

The bed 1 is connected to the shelf 13 of the scope of the stem, including the bracket 14, the stop screws 15. an elastic gasket 16 and the stitches 17.

The device control system (Fig. 3) contains, in addition to a pulsed IDR speed sensor, a DP indenter displacement sensor, whose signals are processed by the control unit that controls the operation of the EPT brake electric drive and the power supply unit BPMR of the gear motor of the device, which operates as follows.

00

about

S3

After fastening the device to the tree trunk by means of stop screws 15 and stitches 17, the frame 1 moves along the shelf 13 until the indenter 9 contacts the bark. The indicator of the sensor 11 is informed of the pre-tension and the power supply of the gear motor 2 is turned on, the speed of which is recorded by the pulse sensor. The signals of the sensor 11 about the movement of the indenter .9 enter the differentiating device of the control unit BU, which determines vr compares the rate of deformation of the crust at regular intervals. When the speed increases, which corresponds to occurrence in viscous fluid deformation, the control unit gives a signal to the electric drive EPT of the brake device 10, fixing the position of the rod 7. Simultaneously with the braking of the rod, the control unit registers the number of revolutions of the screw 3, switches the BPMR unit to reverse rotation of the gear motor and brake the stock. Based on the recorded speed, the crust deformation force and its tensile strength at the time of irreversible deformation are calculated.

Claims (1)

SUMMARY OF THE INVENTION A device for testing a tree bark under compression, comprising a bed, IUTOK supports with a loading element and a spindle mounted on it, an actuator mounted on the bed, interacting with a spindle and a rod, a rod braking mechanism associated with the actuator, a rod movement sensor and a device for attaching the test sample, characterized in that, in order to increase the accuracy of the tests and the performance of the device, the loading element is made in the form of an indenter; The braking mechanism and the displacement sensor pivotally connected to the rod are mounted on one of the rod supports directly connected to the lead screw, the device for attaching the test sample is made in the form of a tie with an elastic gasket and stop screws, the device is equipped with a pulse sensor of drive revolutions, and the motion sensor is electrically connected to pulse speed sensor and braking mechanism. .J