SU985707A1 - Device for testing long thin horisontally securing articles - Google Patents

Description

In a horizontal direction perpendicular to the axis of the workpiece, supportless devices are provided that are free from hysteresis-free friction and include trays filled with liquid with floats in them, the trays being connected to each other by pipes and with a collector and / or an equalizer. A tank, a float, or a rod connecting the floats arranged in pairs with respect to the product, place the base device for the product. To fix the position of the floats and thus the rod, spring parts are provided, which are fixed in the fixed frame so that the floats in the direction perpendicular to the product have an elastic, almost frictionless, support, and in the axis direction to the product are inelastic support. At the ends of the rods, height-adjustable stops are located, which, when the liquid level is lowered, are lower than this value at rest on the supports. An overflow pipe, which establishes the highest liquid level, and an overflow pipe, which heats the lowest liquid level, are connected to the equalizing tank, and the flow valve is located in the overflow pipe that establishes the lowest liquid level. A pump is located in the pipe leading from the collector to the pipe connecting the trays. The product is positioned in supports in such a way that installation on supports does not affect the existing deflections of the product, therefore, they can be considered practically undistorted. By turning the product around the axis of the axis at a certain angle, one can also determine the undistorted supporting deflection in other planes of the product. Since sajalm products are simply laid on the lining of the bars, quick change of products is possible as a result of which a rapid economic measurement process is ensured. By contacting or contactlessly removing the dimensions of the workpiece using appropriate measuring probes associated with the measuring instrument or device that forms the control signal, the subjective influences on the measurements and their accuracy are excluded. 1 shows a schematic of the proposed device, a top view, FIG. 2, section A-A in FIG.} FIG. 3, section B-B in FIG. 1, FIG. 4 a device, top view, with support arrangements arranged in a row; FIG. 3 is a section. B-B in FIG. 4.J. A device for testing long thin articles, having as a result the relationship between length and diameter or material properties, relatively large deformation, for example, deflection, influenced by its own weight, includes frame 2, on which support devices are arranged in the form of trays 3 filled with liquid with floats 4 located in them. Trays 3 are interconnected with collection 5 and leveling tank 6 pipes 7-9. The dalms of the product 1 are located on both sides at a certain distance from each other — trays 3 with floats 4 are located, with two symmetrically lying in relation to product 1 of the float 4 interconnected by a rod 10, which has clamping parts 11 for the tested product 1, located predominantly in the middle between two floats 4. At the ends of the rods 10 there are placed height-adjustable supports 12 and 13, which, when the level of the liquid in the trays 3 falls below a certain value, rest on supports. I: Various feeling devices are provided that are displaced in the longitudinal direction with which the measurements are made on product 1. In Fig. 1, mechanical 14 and pneumatic 15 measuring pins are shown as an example of contact and non-contact feeling devices. In addition to this, provide electrical or optical devices. Measuring pins 14 and 15 are coupled to a signal conditioning device 16 for processing the measured values provided by measuring pins 14 and 15. On the indicator device 17, following the device 16 forming the signal, you can read the results of the curves. As the following blows out of FIG. 2, a pump 18 is provided in the piping system, which drives the fluid and provides a sufficient amount of fluid in the trays 3 and a surge tank 6. There are two adjustable height overflow pipes connected to the collector 5 19 and 20, of which the bottom pipe 20 can be closed by the traveling valve 21. Through these overflow pipes 19 and 20, the height of the liquid level in the trays 3 and the surge tank 6 can be adjusted. FIG. 3 shows the position of the rod 10 and thus the floats 4 in tray 3. For this, The spring parts 22 arranged parallelly to the product 1 and fixedly fixed on the bed 2. The advantage of these spring parts 22 is that the tubes consist of wire and spring, and the wire is weak enough so that almost without follow the movement of the float 4 perpendicularly to the longitudinal axis of the product 1, while the movement of the float 4 and the rod 10 in the direction of the longitudinal axis of the product 1 stops. When removing the product 1 due to the fastening, the contact of the float 4 with the wall of the tray 3 is also prevented. Two supports 23 and 24 are provided in the device, which hold the product 1 and exclude a common shift. Figure 4 shows another embodiment of the invention. The support devices, consisting of trays 25 and floats 26, are located in a row along product 1 and on each of them there is a base part 27 dp products 1. Measuring pins 14 and 15 are in contact with product 1 to determine the measured values

FIG. 5 is visible; fixing the position of the float 26 in the tray 25. The advantage is provided spring parts 27 on the clamping part 2c rigidly connected to the float 26, which determine the position of the float 26 in the same way as shown in FIG. 3.

The proposed device works as follows.

The product 1 is placed on the base parts 11 and is thus held against the force of gravity. With the flow valve 21 closed, the pump 18 pumps fluid both into the trays 3 and into the surge tank 6 up to the height defined by the overflow pipe 19, adjusted in such a way that all the floats 4 float in the tray 3. This allows the product 1 to occupy an unstressed position in the horizontal plane by virtue of the fact that the floats 4 and, at the same time, the rods 10 with the base parts 11 coordinate their half-way with the deflections of the products in the flat plane and. With the help of measuring pins 14 and 15, it is possible to determine the horizontal component of linearity and deflection of the product 1.

By the method not shown in FIGS. 1 and 2, it is possible to determine after turning the product 1 around its longitudinal ori other components of the straightness and deflection.

If, for example, measuring pins are provided, with the help of which measurements are made on the product 1 by contact, then the floats 4 should be lowered to the thist degree, until the stops 12 and 13 are not supported.

frame 2, For which it is necessary to switch the running valve 21. When the pump 18 is running, from the surge tank 6 through the overflow pipe 20. liquid flows down into the collector 5 until the stops 12 and 13 are not supported. Now contact way; it is possible to produce 3s on the product 1.

Claims (5)

Claim 1; A device for testing single thin horizontally fixed products, consisting of a number of support devices located one after the other along the product and measuring the workpiece in a horizontal 5 planes of groping devices, so that, in a horizontal direction perpendicular to the axis of the workpiece, devices free from hysteresis-free friction are provided, including trays 3 and 25 filled with liquid, with floats 4 and 26 contained in them, moreover, the trays 6 and 25 are connected with each other and with the collection 5 and / or the surge tank 6 with pipes 7-9, and 5, on the floats 26 or on the rod 10 connecting the two in a pair located in relation to the item 1 JHDDF 4, is located the clamping part 11 for item 1. 0 2. The device according to claim 1, wherein the clamping parts 22 and 28 are provided for fixing the position of the floats 4 and 26 and thereby the rod 10, which are fixed in the fixed frame 2 in this way that the floats 4 and 26 are set in the direction perpendicular to model 1, elastic, almost without friction, and in the direction of the axis of the product 1 0 inelastic. 3. The device according to Claims 1 and 2, characterized by the fact that at the ends of the rod 10 there are adjustable stops 12 and 13, which 5 when the liquid level drops below a predetermined value at rest on the supports. 4. A device according to nnil-3, which means that the equalization tank 6 is connected to - transfer pipes 19 and 20, which determine one at the highest, and another the lowest levels of liquid, and in the overflow pipe 20 , which determines the lowest level of the liquid, is the running valve 21, and both pipes 19 and 20 are directly associated with the collector 5. 5. A device according to Claims 1-4, characterized in that in the pipe, which is from assembly 5 to the connecting trays 3 and 25, pipes 7 and 8, there is a pump 18. It is recognized as an invention according to the results of the examination carried out by the Office for the Invention of the German Democratic Republic. five / Fg / g f 4G A- / I g L7 S /  fff R // / / // v G9 / 77 /// /// // // // // // //////// у fffff / I 0ugh