SU1128099A1 - Instrument for checking radial clearance of piston rings - Google Patents

Abstract

1. DEVICE FOR THE CONTROL OF RADIAL CLEARANCE PISTON RING, comprising a housing with a base plane, caliber, on the outer surface made in the form of a cylinder and mounted on the base plane of the housing, a light source, installed in the housing, is replicated so that increasing the accuracy of control and expansion of technological capabilities; it is equipped with a holder. pivotally mounted on an axis perpendicular to the base plane of the body, a carriage mounted on holders with the possibility of reciprocating movement parallel to the base plane, an assembly for securing a controlled piston ring located on the carriage in the plane of its displacement | The cylindrical rollers in contact with the outer surface of the caliber, the inner surface of the caliber is made in the form of two semi-cylinders, the axes of which are located at equal distances from the axis of the holder, and the larger diametric axis of the gauge is located along the moving direction (L or carriage. 2. An apparatus according to claim 1, wherein the unit for fixing the test ring is made in the form of two double-arm levers located at the ends of the caliber and the control mechanism 1C arranged to the melody. 00

Description

. The invention relates to a measuring technique and can be used to control the radial clearance between the caliber and the split self-springing piston ring, for example, an internal combustion engine.

A device for controlling the radial clearance of piston rings with a one-piece ring gauge, in which a controlled one is installed, is known. ring and light source. In this device, the line inspection is carried out in a caliber under which the light source is placed. The monitored parameters are compared with the lumen pattern C.

However, in this device, the introduction of a controlled, self-springing piston ring into a one-piece ring gauge requires the application of considerable forces to overcome the forces of the intrinsic elasticity of the ring, and this leads to warping of the piston ring, its breakdowns and the wear of the wear-resistant layer of the coating from its working surface.

Closest to the invention is a device for controlling the radial clearance of piston rings, containing a housing with a base plane, a caliber, on the outer surface made in the form of a cylinder and mounted on a base PLATFORM of the case, a light source installed in the case, 2.

However, the known device also leads to warping of the piston ring, its breakage, spalling of the wear-resistant coating, and intensive wear of the caliber. In the case of control of a piston ring with a tangential dilator having a continuous contact with it, the limestone device cannot be used.

The purpose of the invention is to improve the accuracy of control and the expansion of technological capabilities.

. This goal is achieved by the fact that the device for controlling the radial clearance of piston rings, comprising a housing with a reference plane, a caliber, made on the outer surface in the form of a cylinder and mounted on the reference plane of the housing, the light source installed in the housing is provided with a holder mounted with the possibility of rotation on the axis perpendicular to the base plane of the housing.

a carriage mounted on the holder with the possibility of reciprocating movement parallel to the base plane, an assembly for fixing a controlled piston ring located on the carriage in the plane of its movement, cylindrical rollers in contact with the outer surface of the caliber, the inner surface caliber complete in the form of two half-cylinders, the axes of which are distributed at equal distances from the axis of the holder, and the larger diametrical axis of the gauge is located 9 along the direction of movement of the carriage.

In addition, the assembly for fixing the test ring is made in the form of two double-arm levers located at the ends of the gauge and located between them a control mechanism.

FIG. 1 shows the proposed device for radial clearance of piston rings, general view; in fig. 2, the same, top view; in fig. 3 is a section A-A in FIG. one.

The instrument comprises a housing 1 with a base plane, a caliber 2 on the outer surface, made in the form of a cylinder and mounted on the reference plane of the housing 1, a light source 3 mounted in the housing 1. The device is equipped with a holder 4; pivotally mounted on an axis, perpendicular to the base plane of the housing 1, a carriage 5 mounted on the holder 4 for reciprocating movement parallel to the base plane of the housing 1. To fix the controlled piston ring 6 in the device, there is a fixing unit located on the carriage 5 in the plane her move. The assembly for fixing the piston ring to be controlled is made in the form of two double-arm levers 7, located at the ends of the gauge 2 and the control mechanism 8 interposed between them. The assembly for securing the piston ring 6 to be controlled is carried out by the handle 9. The cylindrical rollers 10 are in contact with the outer surface of caliber 2. The inner surface of caliber 2 is made in the form of two semi-cylinders, whose axes are located at equal distances from the axis of the holder 4, and the larger diametrical axis of the caliber, 2 is located in the direction of movement of the carriage 5. The carriage 5 at its extreme positions is fixed by a servo spring It is calibrated by an effort, the magnitude of which is adjusted by a screw 12 mounted on the holder 4. The length of the two double shoulder arms 7 is chosen so that they freely pass through the inner diameter of the piston ring 6 when it is in the free (decompressed by its own utartness) condition. The device works in the following way. Turn on the source 3 of the light. The carriage 5 is set to the middle position with the help of the handle 9. The controlled piston ring 6, which is in the free (decompressed) state, is installed through two double-ended levers 7 so that the lock is perpendicular to the diametrical axis X, and one of the branches of the piston ring 6 (left, FIG. 1) is pressed against 25 the corresponding caliber half cylinder 2.

After this, the carriage 5 is shifted to the side of the pressed branch of the piston ring 6 by means of the handle 9. In this case, the left ends of the two two-arm levers 7 are under the action of the control lever. The chassis 8 is divorced, and the carriage 5 with servo spring 11 is fixed in the left position. Then the handle 9 is shifted to the right position. At the beginning of its movement, the handle 9 actuates the control mechanism 8, which brings together the left ends of two double-arm levers 7, clamping the left branch of the piston ring 6. With its further movement of the handle Weaving 9, overcoming the force of the servo spring 11, transfers the carriage 5 together with the clamped piston ring 6 to the right half- 5 cylinder of caliber 2, and first the carriage 5 bases the piston ring 6 in the right half-cylinder of caliber 2, 1

from the edge of the lumen to the castle, comparing them with a sample of the lumen.

After that, the handle 9 is moved in the opposite direction, grasping the two two-arm levers 7. Tracked the branch of the piston ring 6 and moving the carriage 5 together with the piston ring 6 to the opposite half-cylinder of the caliber 2. Then, as described, compress the piston ring 6 to the nominal one, turn the holder 4 and caliber 2 180 and a radial clearance (lumen) of the second branch of the ring 6 is visually inspected.

Having thus completed the control of the radial clearance, the carriage 5 is set in the initial (middle) position with the help of the handle 9. In this case, the two double-arm levers 7 are in the neutral position and the piston ring 6 can be freely removed from caliber 2,

The application of the proposed device allows at the expense of this design to increase the accuracy of control of piston rings and expand technological capabilities. 994 (and then, with its further movement, moves the left 5 along the branch clamped by the two two shoulders levers 7. By passing the force of the own elasticity of the piston ring 6 (due to the cut in the lock), until it assumes the nominal shape This is achieved by pre-adjusting the force of the servo spring-11 with a screw 12 so that its horizontal composition imitates a given elasticity of the piston ring 6. Then the holder 4 is turned, the caliber 2 with the counterpart Rui piston ring 6 in the cylindrical rollers 10 to 180 m and making visual inspection radial clearance A, the arc angle of the second lumen, and the angular distance p

Claims (2)

1. INSTRUMENT FOR CONTROLING RADIAL GAP OF PISTON RINGS, comprising a housing with a base plane, a caliber, made on the outer surface in the form of a cylinder and installed on the base plane of the housing, a light source installed in the housing, which is different from In order to increase the accuracy of control and expand technological capabilities, it is equipped with a holder mounted for rotation on an axis perpendicular to the base plane of the housing, a carriage mounted on the holder ^ with the possibility of reciprocating displacements parallel to the base plane, by a node for securing the controlled piston ring located on the carriage in the plane of its movement, by cylindrical rollers in contact with the outer surface of the caliber, the inner surface of the caliber is made in the form of two half-cylinders whose axes are located at equal distances from the axis of the holder, and the large diameter axis of the caliber is located along the direction of movement of the carriage. 2. The device · according to claim 1, wherein the assembly for securing the controlled ring is made in the form of two two-arm levers located at the ends of the caliber and a control mechanism located between them.