SU964436A1 - Device for determining rigidity of feed-and-motion control system - Google Patents

Description

The invention relates to the field of research of machine tools and can be used to determine the rigidity of the AIDS system.

A device is known for determining the stiffness of the AIDS system, in which two eccentric cams are installed on the spindle mandrel, one of which acts as a load element, and the other drives the recorder drum through pushers and a reducer. The cam load is transferred to the tool holder via a spring-loaded roller £ 1].

The disadvantage of this device is that loading the AIDS system in one direction limits its scope, as a result of which the device cannot be used in machines where the load vector periodically changes its direction in space.

The purpose of the invention is the expansion of the scope.

This goal is achieved by the fact that in the mandrel in the plane perpendicular to its axis, a bore is made / in which a loading mechanism is placed, which is a hydraulic piston ⁵ carrying a roller.

In addition, the mandrel is made detachable along the shank.

In FIG. I device is shown, _{) 0} general view, longitudinal section; in FIG. 2 is a view A in FIG. G; in FIG. 3 ~ section BB in FIG. 2.

The device consists of a spindle of the mandrel 1 attached to a spindle _'15 2 and formed on the split shank 3 that can measure the rigidity for machines with any hole v.shpindele. Inside the mandrel, in a plane perpendicular to its axis, perform 20 on the bore 4, in which the hydraulic piston 5 is placed. · The bore 4 is connected by channels to the bore 6, in which the piston 7 is installed. the bore 4 created by the piston 7 from the screw 9, a pressure gauge 10, la is installed for monitoring elastic deformations, an indicator 11 is of the watch type with a division price of 0.001 mm.

The device operates as follows. Such a design of the device allows its use in rigidity testing of machine tools of a boring-milling-boring group, which will expand its technological potential.

at once.

The mandrel 1, mounted in the spindle 2 of the machine, is inserted into the hole of the reference part 12. The machine is turned on. When the mandrel 1 rotates, the roller 8 is run over the cylindrical surface of the reference part 12. By screwing in the screw 9, the piston 7 is moved, which creates a pressure in the bore 6 and, accordingly, through the channels in the bore 4, which acts on the hydraulic piston 5. The roller 8 is in contact with the surface the holes of the reference part 12, creating an internal force between the mandrel and the part that acts on the machine. The magnitude of the load is determined by the manometer .10, and indicator 11 determines the elastic displacement. The magnitude, load, referred to the magnitude of the displacement in any angular position of the spindle, determines the rigidity of the AIDS system in this direction.

Claims (2)

1. -, The invention relates to the field of research of machine tools and can be used to determine the rigidity of the AIDS system. A device for determining the stiffness of the AIDS system is known, in which two eccentric cams are mounted on the spindle mandrel, one of which performs the role of a load element, and the other drives the recorder drum via pushers and a reducer. The load from the cam is transmitted to the toolholder via a spring loaded roller Li. The drawback of the device is that the loading of the AIDS system in one direction limits its scope, as a result of which the device cannot be used in machines, where the load vector periodically changes its direction in space. The purpose of the invention is to expand the scope. The goal is achieved by the fact that a boring is made in the mandrel in a plane perpendicular to its axis, s in which a loading mechanism is placed, which is a hydraulic piston bearing a roller. In addition, the mandrel is made detachable on the shank. FIG. 1 shows a device, a common CCD, a longitudinal section; in fig. 2 - view A on fig.G; in fig. 3 section bb in fig. 2 .: The device is made of a spindle mandrel 1 fixed in spindle 2 and made detachable in the shank 3, which makes it possible to measure the rigidity in machines with any hole in the spindle. Inside the mandrel, in a plane perpendicular to its axis, there is a boring in which the hydraulic piston S is located. A boring C is connected by channels with a boring 6 in which the piston 7 is mounted. At the outer end of the piston 5 there is a fixed lip 8. The bore D created by the piston 7 from the screw 9 is equipped with a pressure gauge 10, | a to control elastic deformations 5 indicator type 11 with a scale of 0.001 mm. . The device works as follows. The mandrel 1, fixed in the spindle 2 of the machine, is inserted into the hole of the reference part 12. I turn on the machine. When the mandrel 1 rotates, the roller 8 is turned around the cylindrical surface of the standard part 12. the channels in the bore i pressure that acts on the hydraulic piston 5. The roller 8 is in contact with the surface of the hole. the reference part 12, creating an internal force between the mandrel and the part that acts on the wall. The magnitude of the load is determined by the gauge .10, and the indicator 11 determines the elastic displacements, Veli. the load, referred to the displacement in any angular position of the spindle, determines the stiffness of the AIDS system in this direction. 6 Such a device design will allow it to be used when testing the rigidity of machine tools of a drilling and boring group, which will expand its technological capabilities. Claim 1. A device for determining the stiffness of the AIDS system, comprising a spindle mandrel and a loading mechanism including a roller, specifically with the aim of widening the field of application in the mandrel in a plane perpendicular to its axis In which the load mechanism is placed, which is a hydraulic piston, bearing roller, 2, Device according to Claim 1, which means that the mandrel is made detachable along the tails. Sources of information taken into account in examining. ments USSR M ° 5S3553, Cl. G 01 B 5/30, 1976, Type A