RU22549U1 - DEVICE FOR MEASURING TRANSFER FORCES OF THE ARROW ELECTRIC DRIVE - Google Patents

Description

Device for measuring the translated forces of a turnout electric drive.

The utility model relates to the field of force measurements and is mainly used in the adjustment and maintenance of railroad switches, namely to measure forces on a slide and in hinges, as well as to measure forces between moving elements of railroad switches (friction)

Known dinanometer (copyright certificate No. 1163166, MKPI G01 L 1/4, bull. And. No. 23, 1985) containing housing, elastic element and indicator. The elastic element is made in the form of a sleeve placed between the stop and the pusher. The indicator is mounted on the housing. Using a dynamometer, displacements are measured that are proportional to the measured force. Using this dynamometer, frictional forces cannot be measured since it cannot be placed between the wit and frame rail. The reading device at the dynamometer is located in an uncomfortable zone and it is difficult to take readings in the field.

A known dynamometer for measuring the closing forces of the movable elements of rail turnouts (RF Certificate No. 3037 6 G01 L 1/4, 1995), comprising a housing, an annular elastic element with interchangeable tips, a mechanical meter for its deformation and means for attaching the dynamometer to the rail in the form of an elastic bracket pivotally connected to the housing. This dynamometer is closest to the claimed utility model and is selected for the prototype. The disadvantages of this dynamometer are:

-The device does not allow measurements of efforts on the gate and in the joints of the turnouts;

-mechanical strain gauge has the shape of a ring elastic element and is unstable to shocks that occur when locking movable elements turnouts; - it is not steady in work at freezing temperatures.

The purpose of the useful modding is to expand the functionality of a device for measuring the translated forces of a turnout electric drive. The proposed device can measure the translation effort of witless arrows directly in the hinge connecting the traction and the gate, and you can also measure the frictional force when translating the witches or core of the cross.

The task is achieved in that the device comprises a housing, an elastic element, a meter for its deformation, including a sensitive element.

MKHG01Ll / 4 t A device for measuring the transverse forces of a turnout electric drive is characterized in that the elastic element is made of a rod with a diametrical longitudinal slot, and the housing is mounted on the end of the elastic element on one side of the slot. The sensitive element is made in the form of an indicator of an iogo sensor with a display panel containing power constantly 1H). In addition, the device is characterized by ICM, which contains an outer casing in which a slider with a hole and a thrust tip located diametrically to this hole is installed, while the casing has upper and lower coaxial holes and is rigidly connected to the terminal, on the other end of which there is a spring bar, and The npifpHM element is connected with a replaceable tip oriented along the axis of the measured friction force. The device is illustrated by figures and figures. In FIG. 1 shows a resilient element located in the hole 1 of the rib assembly and rod: FIG. 2- section AA In FIG. 3- section BB — housing structures. In FIG. 4- installation of a device for measuring the friction force of the electric drive on the arrow. In FIG. 5- section G-1 - along the axis of action of forces. In FIG. b- installation of devices for measuring the friction force of the electric drive on the cross. A device for measuring the translated forces of a turnout electric drive, comprises a housing I. an elastic element 2, a strain gauge 3 thereof, including a sensing element 4. The elastic element 2 is made in the form of a rod 5 with a diametrical longitudinal slot 6, the housing 1 is fixed11 to the highlander of the elastic element 2 one at a time from the slot 6. The sensing element 4 is made in the form of an inductive sensor 7 with a display 8. containing a power supply without current1 {current 9. In addition, the device contains an external housing K). in which the slider 11 with the opening 12 and the stop tip 13 is fixed. Moreover, the housing has upper and pivotally aligned holes 14 and I 5 and is rigidly connected to terminal 16, the clamping plate 17 is spring loaded on the other, and the elastic element 2 is connected to the removable tip 18. oriented along the 19 axis. Measured frictional force. Furthermore, in FIG. I shows the details of the joint of the turnout switch 20 and 21 (20-rod, 21-fork gable assembly). The device operates as follows. When measuring the force in the hinge, the elastic element is mounted in the hinge hole instead of the hinge bolt in accordance with FIG. 1. When the force P arises in the hinge, it is transmitted from the gate 19 to the rod 20 through the elastic element 2, which causes its deformation proportional to the force P. With the help of an inductive sensor, the force is transmitted to the scoreboard

When the power source is turned on, the amount of force is displayed. The proposed new device allows you to measure the translation effort of wits and core of the cross. In addition, this device can measure the frictional forces during operation of the electric motor on the arrow and cross. In addition, this device can be used to measure the forces acting on the second interspinous and longitudinal thrust of the transfer device of high-speed turnouts.

When measuring the friction force of the electric switch, the device is installed in the holes 14 and 15 of the housing 10 and the slider 11 according to figure 4 and figure 5. The configuration of the housing 10 and the slider 11 are made similarly to the elements of the turnout hinge, therefore, the force P applied to the slider 11 and the replaceable tip 13 is transferred to the new device and is fixed in the same way as when measuring the force in the hinge.

Claims (2)

1. A device for measuring the translated forces of a turnout electric drive, comprising a housing, an elastic element, a strain gauge including a sensitive element, characterized in that the elastic element is made in the form of a rod with a diametrical longitudinal slot, the housing is fixed to one end of the elastic element side of the slot, the sensing element is made in the form of an inductive sensor with a display panel containing a DC power source. 2. The device according to claim 1, characterized in that it contains an outer casing in which a slider is fixed with a hole and a thrust tip diametrically located to this hole, the casing having upper and lower coaxial holes and is rigidly connected to a terminal on the other end of which the clamping bar is spring loaded, and the elastic element is connected with a replaceable tip oriented along the axis of the measured friction force.