SU796704A1 - Test stand - Google Patents

Description

(54) TEST STAND

one

The invention relates to the testing of various structures and devices and relates, in particular, to the testing of measuring tools such as calipers, indicators, protractors, etc.

A test stand is known for testing measuring tools such as lever brackets and measuring heads, comprising a drive, the rotation of which is transmitted through an intermediate wheel to a pulley rigidly connected to the glass. A cam is attached to the cup, which interacts with the levers and is hinged on a fixed disk. The lever transmits reciprocating motion to the test objects l.

The closest to the one proposed is a test bench designed to test the windows of vehicles. It contains a base with a drive shaft, a faceplate mounted on the end of this shaft with a crank adjustable according to its width, and a working shaft connected to the moving part of the test object. At the same time, the working shaft itself is installed in the support bracket, and the drive shaft

gear, in engagement with which is a gear rack, pivotally connected to the other end with crank 2.

The disadvantage of these stands is that, since only one type of test movement, reciprocating, is realized on them, the area of their use is limited to testing objects only with this type of work movement. However, they are not designed for testing objects, in particular, measuring instruments with a different actuating motion, for example in the circumferential direction, and therefore, for testing measuring instruments of this type, for example, goniometers, it is necessary to design stand-alone stands.

The purpose of isobreteni is to expand the functionality of the capabilities of a test bench for regisation on it as reciprocating,

and swinging test movements.

This goal is achieved in that the stand is equipped with a clutch of the working shaft with a support bracket, a latch connecting the support bracket with the base, and means for their individual activation, while the support bracket is mounted on guides for its reciprocating movement relative to the base when the clutch is engaged. Such an embodiment of the stand gives the opportunity to test measuring instruments on it like h: with reciprocating actuating movement, for example calipers, trousers, diameters, dial gauges, etc., and with swinging movement, for example, protractors. FIG. 1 is a kinematic diagram of the stand, side view in FIG. 2 is a setup diagram for testing gang-racks; in fig. 3 is a setup for testing goniometers. On base 1, a drive shaft 2 is mounted, on which blocks of 3-5 sprockets and electromagnetic clutches 6.7 are mounted, connecting them to shaft 2. Each of blocks 3-5 is driven into rotation from a common drive (not shown), but with different gear ratios, which ensures the rotational speed of the shaft 2, in particular, 10, 30, 60 rpm. A faceplate 8 with a spike 9 spine adjustable along its radius is rigidly fixed at the end. The crankshaft radius is controlled by a cylindrical 10, conical 11 and screw 12 gears mounted inside the faceplate 8. With the crank 9, the rack 13, which is included in meshing with gear 14, rigidly fixed on the working shaft 15. This shaft is located in the support bracket 16, which in turn is mounted on the guide 17, providing a reciprocating movement of the bracket 16 relative to the base 1 .. In addition to the gear 14, a clutch 18 is mounted on the shaft 15, rigidly connecting it, if necessary, with the support bracket 16. A clamp 19 is mounted on the base of the stand for rigidly connecting the support bracket 16 with the base 1. Control of the clutch 18 and the clamp 19 is provided with electromagnets 20, 21. When the electromagnet 21 is turned on and the electromagnet 20 is turned off respectively, the latch 19 is disengaged from the shaft 15, and the gear 18 is rigidly connected to the shaft with the support bracket 16, as a result of which The rim 14 cannot rotate together with the shaft 15 and, with the possibility of: reciprocating movement of the rail 13, the shaft 15 together with the support bracket 16 will reciprocally move along the rails 17. If X.e turns on the electromagnet 20 and turns off the electromagnet 21, te the retainer rigidly connects the support bracket 16 with the base 1, and the gear coupling 18 leaves the engagement with the bracket 16, then the shaft 15 is able to reciprocate during reciprocating movement of the rail 13. On the front side of the test bench there is a height-adjustable table 22 with T-shaped grooves for fixing test measuring instruments in them, in particular gauge races 23 or goniometers 24. The output of the working shaft 15 is connected to the drive strips 25, 26, defining the required (progressively or vraschetelnoe) moving the movable member of the test instrument. The magnitude of the stroke of the movable element during testing is adjusted by changing the crank radius. Thus, when testing the span gage, the radius of the crank is set to 100 mm, which ensures that the frame of the span grip along its rod is within the limits of its measurement 200 mm. When testing dial gauges, the stroke of the shaft 15 is 10 mm (the measuring limit of the device). The rotation of the shaft 15 may occur in the range of 0-360 °, however, when tested by goniometers, it rotates 90 °. Testing of measuring instruments is performed on the stand as follows. Experimental tools, such as gang-racks, are mounted on table 22 and rigidly attached thereto, and their frames are connected by a drive bar 25 to the shaft 15. With the gear coupling 18, the shaft 15 is rigidly connected to the support bracket 16, while the latch 19 is in non-working position. The radius of the crank is set to 100 mm from the condition of the frame stroke of 200 mm. By connecting the corresponding block of 3-5 sprockets with the shaft 2, the latter, when the engine is turned on, obtains the required rotational speed (10, 30 or 60 rpm), and the toothed rack 13 ensures the reciprocating movement of the tested frames within the protected stroke. The analogue is firstly tested for dial gauges, only in this case the stroke of the shaft 15 is set to 10 mm. In the case of testing of protractors, the electromagnet 21 is turned off, and the electromagnet 20 is turned on, with the latch 19 rigidly connecting the support bracket 16 with the base 1, and the shaft 15 is able to rotate freely. Thus, the reciprocating movement of the rail 13 is converted into a swinging movement of the moving protractor ruler.

The test stand is multi-item. On each of the drive shafts. 2, by turning on the corresponding block of 3-5 sprockets, a corresponding slip speed of the tested elements can be provided, and by adjusting the radii of the cranks at each of the positions a corresponding stroke value can be set, and , maybe, it is realized. both the reciprocating and full motion. This makes it possible to simultaneously test measuring instruments. different in terms of the type of actuating movement and the limits of measurement.

Claims (2)

1.Frid L.Ya., Shumakov A.M. Installation for running devices. Mashinostroitel, No. 4, 1972, p. 42 2. Authors certificate of the USSR 1 318848, cl. G 01 M 19/00, 01/13/69.