SU132032A1 - Inductive sensor - Google Patents

Description

BASIC Auth. St. N ° 95261 described inductive sensor, measles, which is made in the form of a screw, and pole extensions solenoid; in the form of a nut or half-nut. The inner diameter of the thread of the nut has a small gap relative to the outer diameter of the thread of the screw core. This embodiment makes it possible to obtain a continuous measurement scale. At the same time, it does not ensure the compactness of the reading device and requires considerable time when adjusted to the specified linear shifts, within hundreds and tens of millimeters.

In the described inductive sensor, the reading device is made in the form of an auxiliary roller swiveling and movable in small pox with spiral lumen keys located on it in a spiral. The auxiliary roller is separately kinematically connected with the linear scale of hundreds (when the roller turns) and the limb of the dots and units of millimeters (with axial mixing of the roller).

To correct mechanical errors, the device is made in the form of a package of correcting disks connected by a lever mechanism with a moving body of a small counting limb of an inductive sensor, each of which corresponds to one hundred millimeters of linear mixing.

Such an embodiment of the described inductive sensor provides compactness of the reading device and accelerates its adjustment to specified linear mixes within hundreds and tens of millimeters, as well as simplifies manufacture and improves the accuracy of the device for correcting mechanical errors.

The drawing shows a diagram of the described inductive sensor.

From the drive / through the spindle screw 2 and the nut 3, the work table 4 can be mixed. For counting the value of the table shuffle 4 by a given value of coordinates, the differential screw pass 132032

inductive sensor 5, described mainly by the author. St. No. 95261. Sensor with a table relative to the reading screw-box 6 with a pitch of 2 mm. The screw bore 6 passes freely inside the sensor 5 with a side clearance of 0.15 mm and is parallel to the movement of the table.

The set of fractions of mm is made by turning the screw-box 6 by the angle determined by the corresponding turn of the scale 7 relative to the scale 8. When turning the turns the screw-box 6 is shifted relative to the turns of the sensor by the required fractions of a millimeter.

The counting of hundreds and tens of millimeters was made with help of both upright and movable auxiliary roller I with stops 10 located on it in a spiral through the 100 mm path of the table with an angle of 15 ° relative to the surface of the roller .9.

Roller 9 is kinematically associated with a linear scale of hundreds (when the roller rotates 5) and with a limb 12 dots and units of millimeters (with axial mixing, roller 9).

In order to fix the task by; table augmentation, it is necessary to turn on the electric indicator 0.1-0.3 lg1 before the dialed coordinate. This is accomplished with the aid of a stop W and a lever 13, the purpose of which is to turn on microswitches M and 15 at a given coordinate.

When a given coordinate is set, first turning the handle 16 and the shaft 17 rotates the roller 9 with the stops 10 by an angle corresponding to the given one hundred millimeters, measured on a scale //. Then the flywheel 18 includes a cam clutch 19. In this case, the gear gears 20 and 21 will come out of the engagement, and the clutch 22 will be disconnected from the pinion gear 24 through the gear 23. and whole units of millimeters, measured by division of the limb 12.

When the flywheel IS is turned to the opposite direction, the cam clutch 19 is turned off and the gears 20 and 21 are engaged. Using the gear pair 26 of the bevel gears and the screw pair 27, the screw 6 is turned to set on the scales 7 and 8 in predetermined fractions of a millimeter. In this case, the roller 9 through the wormwood 27 and the broken pair 24, 25 will also move; ia specified millimeter fractions.

Subsequently, when the table 4 is moved, the lever 13 collides against the support 10, after which the electrolight turns on and the system automatically stops the table from the sensor pulse and automatically stops table 4 at a given coordinate.

To correct table movement errors due to the inaccuracy of the measuring system, a correcting device is used. It consists of correcting disks 28 (one disk for each 100 mm table path) and a lever system 29, 30, 31, acting as an additional turn on the tapered limb 7. The lever 29 moves from one correcting disk 28 to another by turning the handle 16 for the required hundred millimeters.

Subject invention

Claims (2)

1. Inductive sensor auth. St. N ° 95261, characterized in that, in order to ensure the compactness of the reading device of the inductive sensor and accelerate its adjustment to predetermined linear movements within hundreds and tens of millimeters, the reading device is made in the form of an auxiliary roller rotatable and axially movable helix switching stops, separately kinematically connected with a linear scale hundreds (when turning the roller) and a limb of tenths and units of millimeters (with the axial movement of the roller). 2. Inductive sensor pop. 1, characterized in that, in order to simplify the manufacture and improve the accuracy of the device for correcting mechanical movement errors, the correcting device is made in the form of a package of correcting disks connected by a lever mechanism with a movable case of a limb of small movements of an inductive sensor, each corresponding to one hundred millimeters linear motion. 27 / 7