CS225680B1 - Apparatus for the measurement of the surface evennes deviations of building units - Google Patents

Description

The invention solves the problem of operative and rapid detection of surface flatness deviations, especially in the case of building components under operating conditions in prefabricated production or construction sites.

Various types of optical instruments such as leveling machines or theodolites are known for measuring flatness deviations of components. The disadvantage of measuring the surfaces of the components with these optical devices is the laborious preparation of the meter and the measured component to a suitable position, the demands on the surrounding handling and working space, the demands on the qualification of the measuring staff and the evaluation of the measurement results. As a rule, the results of the flatness deviations of the surfaces cannot be obtained immediately during the check of the flatness of the surfaces of the parts in the production process and therefore the quality of the flatness of the surfaces of the construction parts cannot be evaluated operatively.

The aforementioned drawbacks are eliminated by the device for measuring the flatness deviations of the building surfaces according to the invention, which consists of an assembly of four stands clamped on the surface of the workpiece and two electrically conductive strings diagonally diagonally between pairs of stands. thought plane above the measured surface. Contact of the strings is signaled by an illuminated light bulb of the signaling device, which is connected to the electric circuit with the power source and both strings. Each pair of stands is equipped with a winding drum for fastening and winding the string and a tensioning device for tensioning the string. The strings are guided on the stands through the height of ka225 680

225 680 librated supports. At least one stand is provided with a height adjustable section for height adjustment of the string and a gauge for deviations from the basic zero mark. For other stands, the strings are guided at a constant distance above the bottom support surface of the stand. The deviation value from the basic zero mark on the gauge is equal to the deviation of the flatness of the four measured points on the workpiece surface.

An advantage of the device for measuring the flatness deviations of the surfaces of the components according to the invention is that the measurements can be carried out on the components in any position and location, including the components mounted on the transport means. Measurements may also be made by personnel with lower qualifications who are trained for measurement. The advantage of the device is simple and quick installation on the part and immediate evaluation of deviations of flatness of measured places and direct visual inspection of deviations values on the meter.

1 shows a plan view of a meter assembly, FIG. 2 shows a side view of a type A stand, FIG. 3 shows a side view of a type B stand, FIG. 4 side view of type C stand

As shown in the drawing / FIG. 1 / notably, the device assembly consists of four stands 1 clamped to the workpiece 8 with a clamping device 2 and two electrically conductive strings 25 connecting diagonally a pair of stands A and C and a pair of stands 1 of B and C, 7. The strings 25 are guided on the stands χ through height-calibrated supports 18. at one end they are tensioned by a tensioning spring device 17 and at the other end they are fastened to a winding drum 15. The strings 25 are connected to an electrical circuit with a 2 P ^r ° The signaling device 2 forms a power source 2 and a signal lamp 4. The electrical connection of the strings 25 to the signaling device 2 forms the electrically conductive surfaces of the metal parts of the Type A and Type B stands, to which the electrical lines are connected by terminals 6 2 from the signaling device outputs.

As shown in the drawing / FIG. 2, it can be seen that the stand A of type A consists of a base plate 10 with three support feet 11, of a measuring column 12 fixed perpendicular to the base plate 10. of a height adjustable section u for height rectification of the string 25 mounted on the measuring column 12; a winding drum 15 and a height-calibrated support 18. wherein the bracket 14 is mounted rotatably on the height-adjustable part 13. A gauge 24 with a millimeter graduation and a basic zero mark 19 is marked on the measuring column 12. via a height-calibrated support 18 and provided at its free end with a terminal 16 for mounting on a tensioning spring device 17. On the base plate 10 a terminal 8 for connecting a power line 2 is provided.

As shown in the drawing / FIG. 3, the B-type stand consists of a base plate 10 with three support feet χχ, a support column 22 firmly connected to the base plate X0 and a bracket 14 with a winding drum 15 and a height calibrated support 18. wherein the bracket 14 is rotatably attached to the support the column 22 about its vertical axis. An electrically conductive cord 25 is guided and wound on the winding drum 15 and guided over the height gauge 3.

225 680 is provided at the free end with a terminal 11 for fastening to the tensioning spring device. On the base plate 10 a terminal 8 is provided for connecting the power line 5. The B-type rack assembly 4 is clamped to the workpiece 8 by the clamping device 8.

As shown in the drawing / FIG. As can be seen, the pedestal 6 of the type 6 consists of a base plate 10 with three support feet 11. a support column 22 fixed perpendicular to the base plate 10. on the support column 22 a bracket 14 with a tensioning spring device 17 and height calibrated support 18. The rack assembly, type 1, is clamped to the workpiece 8 by the clamping device 9.

As shown in the drawing / FIG. 1, FIG. 2, FIG. 3, FIG. 4, the electrically conductive strings 25 on the Type 1 and Type 6 stands 1 are guided at a constant distance to the plane of the lower surfaces of the support feet 11. In the Type 1 stand, the zero mark 19 on the gauge 24 is height calibrated at a distance and above the plane of the lower surfaces of the support feet 11. the upper surface of the support 18 is calibrated at a distance b above the measuring lip 20. the electrically conductive string 25 is at a distance y. with the formulas a + b = ka + b i u = v 1 +

V and K - U where u denotes the distance of the measuring edge 20 from the basic zero mark 19 of the meter 24 and is equal to the deviation of the flatness of the four measuring points 21 on the surface of the panel 8.

In order to utilize the flatness deviation measuring device according to the invention in common construction practice, it is usually sufficient to detect flatness deviations by measuring four points in the corners of the panel surface in the case of planar components, and the assembly of the device according to the example is suitable. The device can be assembled to measure surface flatness deviations from a differently chosen thought plane by adjusting the gauge assembly by equipping the height-adjustable part and scale with additional racks. The device can be adapted to measure deviations of flatness and other surfaces of building structures, especially when the use of leveling machines or theodolites cannot be used for technical reasons.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for measuring deviations of flatness of building surfaces, characterized in that it consists of four stands (1) and two electrically conductive strings (25) connecting diagonally two pairs of stands (1) while touching each other and guided on the stands (l) through height calibrated the supports (18) and connected to the electrical circuit with a signaling device (2) for signaling the mutual contact of the electrically conductive strings (25), each pair of stands (1) being equipped with a winding drum (15) for winding the string (25) and a spring tensioning device (17) for tensioning the string (25), wherein at least one stand (1) is provided with a height adjustable portion (13) for height rectifying the position of the string (25) and a handle gauge (24) from the base zero mark (19).