SU1506262A1 - Micrometer motion - Google Patents

Abstract

This invention relates to mechanical engineering and instrument making, in particular, to measuring devices. The purpose of the invention is to maintain the accuracy of the fixed position of the micrometric mechanism. The micrometer mechanism contains a screw 2 screwed on a split nut 4 mounted in the housing 3 and clamped by a threaded plug 6. The sleeve 14 of the fixing device is rigidly connected to the drum 16 and screw 2. The sleeve 14 has a movable sleeve 15. The bevels 24 of the movable sleeve 15 are in contact with the drive pins 27 installed in the fingers 21. The fingers 21 are placed in the longitudinal windows 26 of the movable sleeve 15 and in the diametrical openings of the sleeve 14 and the drum 16. The split spring ring 29 is placed in the conical inlet part 25 of the movable sleeve 15 with the stop Rum in the annular ledge 28 of the drum 16. When pressing down the fingers 21, the driver pins 27 move the movable sleeve 15 to the bevels 24. The tapered end 25 comes out of engagement with the split spring ring 29. After setting the predetermined position of the screw, the fingers 21 release. Under the action of the spring 18, the tapered end part 25 compresses the split spring ring 29 and seizes it on the housing 3. The locking of the micrometric mechanism ensures rigid fixation of the specified screw position. 1 il.

Description

3150

The invention relates to the field of instrumentation and mechanical engineering and can be used in devices and systems that require thin linear movement with the possibility of rigid fixation of the adjusted position of the micrometer screw.

The aim of the invention is to increase reliability by maintaining the accuracy of the fixed screw position of the micrometer mechanism during long-term operation.

The drawing shows a micrometric mechanism.

The micrometric mechanism is mounted on panel 1 of the device and contains a screw 2 mounted in the housing 3, in which the screw nut 4 is placed with a notch in the form of a longitudinal plate 5 screwed on the wine 2, and a screw plug 6. The screw 2 is provided with a ball pressed into its end face 7. The nut 4 is resolved with two oppositely directed external conical surfaces 8, which interact respectively with the transition 9 from the central opening of the housing 3 to the bore and the inner conical opening of the Urezhevoy plug 6. The block plug 6 has the ability to move and along the thread 11 of the central opening of the housing 3. The latter has a recess in the form of a radial opening 12, in which the stop 13 is installed as a driving pin located in the slotted 5 of the split hook 4 perpendicularly longitudinal axis. The micrometric mechanism is provided with a fixing device, which is made in the form of a sleeve 14 rigidly connected to the screw 2, a movable sleeve 15 placed on the sleeve 14 into the gap of the said sleeve and drum; Mr. 16 is coaxial with them.

A cylindrical spring 18 is installed between the flange 17 of the sleeve 14 and the end of the sleeve 15. Flange

17 sleeves 14 fixed motionless in

the drum 16 with a rectangular cross-section of the spring ring 19. The sleeve 14 has a through diametrical opening 20 aligned with a through diametrical opening on the side surface of the drum 16, in which fingers 21 are placed, spring-loaded by means of a cylindrical spacer spring 22. Movable

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sleeve 15 is embodied in the form of an outer 23 and an inner ring and a jumper connecting them. The outer surface of the inner ring has bevels 24, and the inner “L1” surface of the outer ring is a conical lead-in part 25. In the sleeve 15 there are made longitudinal windows 26, Driving pins 27 installed in the through diametrical holes of the fingers 21, located in the gap between the inner and the outer ring of the movable sleeve 15 with an emphasis in bevels 24.

The inner side surface of the drum is made with an annular mounting 28, against which a split spring ring 29 rests on its straight end and is placed on the housing 3 and interacting with its outer conical surface with the conical insertion part 25 of the outer ring 23 of the movable sleeve 15.

The micrometer mechanism is installed in the instrument by attaching the housing 3 to the instrument housing panel 1. The operation of the micrometric mechanism itself is characterized by the movement of the screw 2 f by the ball 7 pressed into its end face and the fixing of the set position of the solid ball 7.

The micrometric mechanism works as follows.

Pressing the fingers 21 and inserting them, the driving pins 27 act on the bevels 24 of the sleeve 15. The sleeve 1J begins to move along its axle, compressing the spring 18. The outer ring 23 of the sleeve 15, slipping along the inner surface of the drum 16, removes the conical entry portion 25 the outer ring 23 of the sleeve 15 from engagement with the mating outer conical surface of the compressed split spring ring 29, which increases in diameter and comes out of contact with the housing 3, forming a guaranteed gap with the latter. The drum 16 is able to rotate and, through the sleeve 14, transmits the rotation to the screw 2 secured therein. The screw 2 rotates into the split nut 4, which is fixed in the housing 3, and provides a guaranteed clearance in the screw thread 2 using the threaded plug 6. The split nut 4 keeps the drive pin 13 mounted in the radial bore from turning

12 corps 3 and in the immediate operation of gypsy with longitudinal and 5 ganca A, and

The nut 4 is fixed relative to the housing 2 and the panel 1 of the device; therefore, when the drum 16 and the screw 2 connected to it through the sleeve 14 of the screw 2 are rotated, the latter moves longitudinally. As soon as the required position of the micrometric mechanism is adjusted, the fingers 21 are released, which under the action of the cylindrical spacer spring 22 begin to move in the radial direction, while the driving pins 27 no longer affect the bevels 24 of the sleeve 15. The sleeve 15 under the action of the spacer cylindrical spring 18 will begin to move in the axial direction, while the tapered inlet part 25 of the outer ring 23 of the sleeve 15 will begin to interact with the outer outer conical surface of the split spring ring 29 which nach- ret moved completely into the annular shoulder 28 of the inner side surface of the drum 16. After the stop of the split spring ring 29 to the n: five

062626

it has a split nut, made with two oppositely directed hubs: - with four sets of diagonal tangencies at its ends, a threaded plug with an internal conical hole, placed on the conical surface of the nut and screwed into the housing, the drum, mounted on opportunity

10 returning 11o-translational movement and rigidly connected with the screw, and a stopper installed in the combined recesses of the nut and body perpendicular to the longitudinal axis, about HJ) 5 y and so that, in order to maintain the accuracy of a fixed position It is equipped with a fixing device, which is made in the form of a p-joint with a flange and a through diameter of 20 mm with a protrusion on the opposite side, placed in the drum and connected with a drum flange, and the opposite end with a screw, a movable sleeve with longitudinal windows 25, size en in the gap I I wait for the liner and the drum coaxially with them, springs ,. spaced between the end of the under-grip sleeve and the flange of the sleeve, | L, mutually spring-loaded p.

Ring ledge 28, ring 29 will begin to grind 30 with diametr-1 and holes in the middle under the action of the conical inlet part 25 of the outer ring 23 of the sleeve 15 crawling onto it until the entire ring between the spring-loaded 1 ring 29 and the body 2 is selected and then a guaranteed tension is created from the action of the spacer coil spring 18, while fixing the working position of the screw 2. will be effected by friction forces between the connected screw 2 through the sleeve 14 of the razm.1m pr: / gin ring 29 and the outer surface of the body 3 with them ovmestnom jamming.

In this way, the adjustment of the micrometric adjustment mechanism is maintained to ensure the position of the adjustment device.

Claims (1)

The invention The micrometric mechanism containing a screw with a ball on the end, installed in the housing, is screwed on five 0 five 0 five In this case, the parts placed in a single drum, in the longitudinal windows of the LJ sleeve and 3 diametral holes of the sleeve, two driving pins, placed in the diametrical holes of the najTb-ends, and a split spring ring with an outer conical surface mixed on the body, and the drum with an annular ledge on the inner side surface and with a through diametral opening for said fingers, the movable sleeve is made in the form of the outer and inner rings and the bridge connecting them from the spring side, the outer surface The inner ring has bevels, and the outer surface of the outer ring is a conical feedbone, the driving pins are placed in the gap between the inner and outer rings of the base; a sleeve with an emphasis to bevels, and an elastic spring ring is placed in the conical moving part bushings with emphasis in the annular ledge drum-ana.