SU1466661A3 - Adjustment arrangement - Google Patents

Abstract

The invention can be used to unload the mechanism for moving the press ram and improves the durability of the adjusting device due to its conversion to a static mode of operation. The adjusting device, fixed above the slider, consists of a cylinder 16 fixedly mounted in the housing, a rod 17 interacting periodically with the slider, and a cup 18 fixed thereto, the Rod on which the flange 20 is formed, is placed in the hole of the bottom of the bowl. The flange is located in the cavity 21 formed by the glass and the surface of the slide. The height of the cavity is chosen greater than the total value of the maximum stroke of the slide and the thickness of the flange. During adjustment of the slider, compressed air is supplied to the rod end of the cylinder 16. Rod lift- It balances and balances the weight of the slide, which in this case is moved, by a screw-screw transfer. In the process of working cycle, the rod does not interact with the slider. 2 tm.

Description

The invention relates to mechanical engineering and can be used to unload the mechanism for moving the slider press.

The purpose of the invention is to increase durability by translating the device into a static mode of operation.

Figure 1 shows the kinematic diagram of the press; figure 2 - adjusting device.

The press contains a base 1, columns 2, a slider 3 mounted on them with the possibility of movement and a drive 4 mounted on the upper part of the press. The latter includes a clutch 5, a flywheel 6, a brake 7, a crankshaft 8, connecting rods 9 and mounted at their ends mechanisms for moving the position of the slider in the form of worm-screw gears 10. On the slider there are protrusions 11 that are designed to interact with the adjusting devices 12 and 13, the first of which is shown in the adjustment position, and the second in the off state, Adjusting devices Oguta be mounted either below the slider (1) or on the slide (Figure 2). Compressed air during adjustment is supplied from the pump 14 through an electromagnetic valve 15. The adjusting device, mounted above the slider, consists of a cylinder 16, .. mounted motionless in the housing, a rod 17, periodically interacting with the slider, and a glass 18, mounted on the slider. The rod is placed in the bottom hole of the 19th glass, and a flange is made on the rod

20. The latter is placed in the cavity

21 formed by a glass and the surface of a slider. The height of the cavity is selected greater than the total value of the maximum stroke of the slider and the thickness of the flange. The adjustment of the slider is made relative to the plate 22, mounted on the base.

The device operates as follows,

Compressed air is supplied to the rod cavity of the cylinder 16 from the pump 14 through the solenoid valve 15. The rod 17 rises and is pressed by its flange 20 into the bottom 19 of the glass 18. The force developed in this case balances the weight of the slider 3. The worm-screw gear motors 10 of the mechanisms for moving the position of the slider are turned on and it is easily installed in the desired height position relative to the plate 22. Then the rod 17 is lowered and the flange 20 is brought out of contact with the bottom 19 of the glass. In the process of working reciprocating movement of the slider 3 there is no contact of the rod with the glass.

Using the adjusting device in static mode during the adjustment of the slider and turning it off during operation increases ’the durability of the mechanism.

Claims (1)

Claim The adjusting device of the press · with the reciprocating movement of the slider, comprising a housing and a fixed cylinder fixed in it with periodically interacting Shtokom and a slider, characterized in that, in order to increase durability, it is equipped with a glass mounted on the slider with a hole in the bottom, designed to accommodate it contains a rod with a flange located in the cavity formed by the glass and the surface of the slider, and the height of the cavity is selected greater than the total value of the maximum stroke of the slider and the thickness of the flange.