RU2472133C1 - Friction test bench - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: proposed device comprises bed to support specimen and counter specimen clamps, specimen clamp drive including driven wheel, pin arranged off-centre on said wheel, con-rod with pin fitted in its cutout, and push rod coupled with specimen clamp, counter specimen clamp drive including wheel articulated therewith and with clamp drive, and appliance for pressing of clamps. Besides it has extra pin, extra con-rod with extra pin fitted in its cutout, and extra push rod fitted on extra con-rod and coupled with counter specimen clamp. Clamp drive wheels are fitted on common axle while extra pin is arranged off-centre on counter specimen drive wheel.

EFFECT: increased data volume.

2 cl, 1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for testing materials for friction (RF patent No. 1627911, class G01N 3/56, 1990), containing a base, mounted on it grips of the sample and the counter-sample, a mechanism for moving the capture of the sample, including a wheel with a drive drive, a mechanism for moving the capture of the counter-sample, kinematically connected with the drive of rotation of the mechanism for moving the capture of the sample, and a device for mutual compression of the samples.

The disadvantage of the installation is that it is not feasible to study friction under the action of cyclic inertial loads on the samples.

A known installation for testing materials for friction (RF patent No. 1601561, class G01N 3/56, 1990), containing a base, mounted on it grips of the sample and the counter-sample, a mechanism for moving the capture of the sample, including a wheel with a drive drive, a mechanism for moving the capture of the counter-sample, and a device for reciprocating samples.

The disadvantage of the installation also lies in the fact that it is not feasible to study friction under the action of cyclic inertial loads on the samples.

A known installation for testing materials for friction (RF patent No. 1675741, CL G01N 3/56, 1991), taken as a prototype. The installation comprises a base, sample and counter-sample grips installed on it, a sample gripper moving mechanism including a wheel with a rotation drive, a pin eccentrically mounted on the wheel, a connecting rod with a finger in the slots, and a pusher associated with the sample capture, a counter-sample gripper including a wheel kinematically connected with the capture of the counter-sample and with the drive of rotation of the mechanism for moving the capture of the sample, and a device for mutual tightening of the samples.

The technical result of the invention is to increase the amount of information by studying friction under the action of cyclic inertial loads on the samples. This limits the amount of information in the study of the interaction of moving friction elements of mechanisms.

The technical result is achieved by the fact that the installation for testing friction materials containing a base, sample grips and a counter sample mounted on it, a sample gripper moving mechanism including a wheel with a rotation drive, a pin eccentrically mounted on the wheel, a connecting rod, in the slot of which a finger is installed, and a pusher associated with the capture of the sample, a mechanism for moving the capture of the counter-sample, including a wheel kinematically associated with the capture of the counter-sample and with a rotation drive of the mechanism for moving the capture of the image ztsa, and the device for reciprocating samples, according to the invention, it has an additional finger, an additional connecting rod, in the slot of which an additional finger is placed, and an additional pusher mounted on an additional connecting rod and connected with the counter-sample capture, while the wheels of the gripper moving mechanisms are mounted on a common axis and an additional finger is mounted eccentrically on the wheel of the counter-sample gripper.

The technical result is also achieved by the fact that the installation has a latch for connecting the wheels to each other.

Figure 1 presents the installation diagram, side view (Fig 1A) and top (Fig 16).

Installation for testing materials for friction contains a base 1, a grip 2 of a sample 3 and a grip 4 of a counter-sample 5 mounted on it, a mechanism for moving the grip of the sample, including a wheel 6 with a rotation drive 7, a pin 8, eccentrically mounted on the wheel 6, the connecting rod 9, in the slot which is equipped with a finger 8, and a pusher 10 connected to the connecting rod 9 and connected to the capture 2 of the sample, a counter-sample gripper moving mechanism including a wheel 11 kinematically connected to the counter-sample gripper 4 and a rotation drive 7 of the gripper 2 the sample, and the device 12 for mutual compression of the samples.

The installation has an additional finger 13, an additional connecting rod 14, in the slot of which an additional finger is placed, and an additional pusher 15, mounted on an additional connecting rod and connected with the capture 4 of the counter-pattern. The wheels 6, 11 of the gripper movement mechanisms are mounted on a common axis 16. The additional pin 13 is mounted eccentrically on the wheel 11 of the counter-sample gripper movement mechanism.

The installation has a latch 17 for connecting the wheels 6, 11 to each other.

The wheel 11 is mounted on the base 1 on the support 18. The rotation on the wheels 6, 11 from the drive 7 is transmitted through a pair of gears 19, 20. If the latch 17 is not used, then the wheels 6, 11 are connected to the shaft by the dowels 21. If there is a latch 17 of the dowel 21 are deleted. The device for reciprocating samples is made in the form of screw presses 12 with platforms 22 for the movement of the grippers 2, 4, while the grippers have the ability to move relative to the corresponding pushers 10, 15 perpendicular to the direction of movement of the pushers.

Installation works as follows.

When the latch 17 is on or if there are keys 21, the drive 7 is turned on and the wheels 6, 11 are rotated in the same direction and at the same speed. The fingers 8, 13 move the connecting rods 9, 14, which, through the pushers 10, 15, move the reciprocating grippers 2, 4. In the embodiment shown in FIG. 1, the fingers are diametrically opposed to each other, so the movement of the samples will be mutually opposite. Samples undergo friction during a cyclic change in inertial forces on the weight of the samples. To change the magnitude of the displacement of the phase diagrams of movement of the samples, the latch 17 is briefly turned off, which, in the absence of dowels 21, gives the wheels mutual rotation around the angle in the plane of rotation. This changes the location of the contact zone of the samples on the surface of the samples and the magnitude of the mutual displacement of the samples. With the synchronous rotation of fingers 8, 13, the samples move without mutual displacement, only inertial forces without friction act. The force of preloading the samples is set by presses 12 through platforms 22.

The setup provides the study of friction in new conditions - under the action of cyclic inertial loads on the samples. This increases the amount of information in the study of the interaction of moving friction elements of mechanisms.

Claims (2)

1. Installation for testing materials for friction, containing a base, mounted on it grips of the sample and counter sample, a mechanism for moving the gripper of the sample, including a wheel with a rotation drive, a pin, eccentrically mounted on the wheel, a connecting rod, in the slot of which a finger is installed, and a pusher connected with the capture of the sample, the mechanism for moving the capture of the counter-sample, including a wheel kinematically connected with the capture of the counter-sample and with the drive rotation of the mechanism for moving the capture of the sample, and a device for mutual ia samples, characterized in that it has an additional finger, an additional connecting rod, in the slot of which an additional finger is placed, and an additional pusher mounted on an additional connecting rod and connected with the capture of the counter-sample, while the wheels of the gripper moving mechanisms are mounted on a common axis, and the additional finger mounted eccentrically on the wheel of the traverse mechanism for capturing the counter sample. 2. Installation according to claim 1, characterized in that it has a latch for connecting the wheels to each other.