CS198329B1 - Device for measuring evenness,rectangularity and straightness of mould pad - Google Patents

Description

The invention solves the technical problem of providing a suitable device using a laser beam emitter to measure the flatness, squareness and straightness of the form pads in the region of especially silicate prefabrication and in the manufacture of building panels.

In measuring the flatness, squareness and straightness of the form pads and similar larger surfaces, a variety of measuring instruments are used, which must be mounted on a set so that measurements can be made simply, quickly and with sufficient accuracy. To date, traditional visual optic geodetic methods have been used for this purpose, using a tripod with a standpoint as a rule outside the measuring surface, rarely even directly on the measuring surface]. More recently, electro-optical methods are used for the measurement. The common drawback of these devices is the lack of rigidity and the unsteady fixed position of the measuring instrument throughout the measurement. Another drawback is usually the considerable weight needed to achieve the stability of the whole measuring set, or also the need to create fastening holes in the measured flat.

The aforementioned drawbacks are eliminated by the flatness, squareness and straightness measuring device according to the invention, which consists of an electromagnetic fastener, a device body and a laser beam emitter holder, wherein the electromagnetic fastener consists of a lid in which the electromagnet or symmetrically distributed electromagnets with a vertical magnetic axis and in the peripheral wall of the lid are attached three distance screws with a horizontal axis, spaced so that two are parallel and the third is perpendicular to them. The body of the apparatus consists of a tripod of a angular shape bounded by four vertical and mutually perpendicular walls and one horizontal wall perpendicular to the previous walls, said walls having holes in their transverse axes for adjustable mounting of the holder housing by means of adjustment screws. a plate resilient and adjustable coupled to the electromagnetic fastener lid via locking screws and springs, the mechanical tip extending through the opening in the vertical axis of the tripod and lid guided in the holder and tripod housings. The laser beam emitter holder consists of a pin firmly attached to the beam provided with two locking cats, with two vertical and one horizontal ball-point adjustment screw for accurate alignment of the laser emitter.

An advantage of the device according to the invention is the adjustable fastening of the measuring device to the measured flat, for example a form pad with sufficient rigidity, guaranteeing a stable position of the measuring device during the whole measuring time. Another advantage is the low total weight without adversely affecting the stability of the entire measuring set and also the simple folding of the laser beam emitter mounted in the holder into the respective positions, allowing the formation of a horizontal or vertical optical plane.

The accompanying drawings show an example of an embodiment of the device according to the invention. 1 is a front elevational view of the device; FIG. 2 is a plan view of the device; FIG. 3 is a cross-sectional view of the device, and FIG. 4 is a partial cross-section along the line A-A.

The device according to the invention consists of an electromagnetic fastener, a device body and a laser beam emitter holder. The electromagnetic fastener consists of a lid 1 consisting of a bottom and a circumferential wall, wherein two bottom notches 2 and a cone support 3 arranged at right angles to each other are pressed into the bottom of the lid 1. Furthermore, the solenoid 4 is pivotably attached to the bottom of the cover 1 by means of a spherical bearing 5 via a ball bearing 5. symmetrically distributed electromagnets 6. A socket 7 is fastened to the peripheral wall of the lid 1 through which the electromagnets 6 are connected to a direct current source 8. Further, on the circumferential wall of the lid 1, handles 9 and three spacers 10 are attached, spaced so that two are parallel and the third is perpendicular thereto and all three are rotatable in the nylon rollers 11. The body of the apparatus consists of a tripod 13 provided at the lower end with a square plate 14, in which corners are pressed in with precision threaded nuts 16 for the locking screws 13, which with their tips engage in the slots of the supports 2, 3, two vials 34 are fastened horizontally and mutually perpendicularly to the square plate 14. the spring 19 through the screws 21 fixed in the bottom of the lid 1. The tripod 13 itself is a spherical body bounded four vertical, mutually perpendicular walls and one horizontal wall, perpendicular to the previous walls. In the transverse axis of these walls, the holes in which the sheaths 22 of the laser beam holder 32 are inserted are fixed by adjustment screws 23 enabling fastening and adjustment of the sheath bushes 22 in which grooves are formed with an inserted ring 24 through which a pinch screw acts on the pin 25. 26. The laser beam emitter holder comprises a beam 27 with a pin 25 which together form a single body rigidly connected to the locking cats 28 provided with two vertical and one horizontal ball-point adjustment screws 29. On the spherical adjusting screws 29, a laser radiator 32 is mounted in the spacer ring 30 and connected to an unmarked source. The laser emitter 32 is further provided with an adjustable tube holder 31 with a knife portion extending into the horizontal ball screw 29. The tube holder 31 encircles the elastic clamp 33.

The function of the device according to the invention is as follows: the electromagnetic fastener performs the function of a base thatch and allows a fixed connection of the device and the steel thatch of the molding device support, while the pivoting mounting of the electromagnets 6 in ball bearings The two indentations 2 with the cone and the cone support 3, pressed into the lid 1, allow precise adjustment of the inclination of the body of the apparatus relative to the lid 1 of the electromagnetic fastener and thus also with respect to the substrate of the forming device. Rotation and adjustment of the exact orthogonal orientation of the device relative to the measured substrate of the molding device is enabled by spacers 10, silent operation of which is ensured by the nylon rollers 11. The electromagnetic fixator is connected to the device body. and its position is adjustable by the locking screws 15 whose tips extend into the supports 2 and the tapered support 3, the adjustment of the device being facilitated by the control vials 34. As required to form a vertical or horizontal optical plane, the pin 25 of the beam 27 is inserted The laser radiator 32 is adjustable on the beam 27 and fixed by means of locking blocks 28, provided with two vertical and one horizontal adjustment screw 29 with a ball point and further by means of spacers. of the tabs 30 and the tube holder 31 with a knife portion, adjustable in the horizontal screw 29 with the ball tip. The tube holder is enclosed by a flexible clamp 33. A constant height of the pin 25 of the beam 27 in the holder housing 22 from the measured surface is provided by a mechanical tip 12, guided in the holder housing 22 and tripod 13 and passing through the hole in the center of the lid 1.

The device is operated as follows: the device is placed by means of the handles 9 on the measured surface of the molding device support and the rectangular orientation of the lid 1 position against the side walls of the molding device is performed by means of spacers 10. After switching on the electromagnets 8 and ensure a firm connection of the device to the steel plate of the washer in the set position. In a further stage, the position of the device body is adjusted by means of the locking screws 15 and the vials 34 and a pin 25 of the beam 27 of the laser emitter 32 connected to the unmarked source is inserted into the respective opening of the holder housing 22. By adjusting the ball-point screws 29, the position of the laser emitter 32 in the locking blocks 28 is adjusted, and the device is ready for measurement. In fact, the measurement is carried out in combination with the laser beam height coordinate indicator from the measured area - for example in a conversion according to the Czechoslovak author's certificate number 171013.

The device according to the invention is applicable, in particular, for measuring the flatness, squareness and straightness of the form pads in the region of, in particular, silicate prefabrication, in the manufacture of building panels, but also for measuring large machined or other metal surfaces.

Claims (1)

Apparatus for measuring the flatness, squareness and straightness of form pads, consisting of an electromagnetic fastener, body, apparatus and laser beam emitter holder, characterized in that the electromagnetic fastener consists of a lid (11j) in which at least one electromagnet is fixed to the bottom (6) with a vertical magnetic axis and to the peripheral wall of the lid (1) are attached three distance screws (10) with a horizontal axis, spaced so that two are parallel and the third is perpendicular to them, the body of the apparatus consists of a tripod (13) spherical shape bounded by four vertical, mutually perpendicular walls and one horizontal wall, perpendicular to the previous walls, which are provided in their transverse BACKGROUND OF THE INVENTION axial apertures for adjustable mounting of the holder housing (22) by means of adjustment screws (23), the bottom of the tripod (13) being provided with a square plate (14) resilient and adjustable to the electromagnetic fastener lid (1) via locking screws (15); a spring (19), wherein a mechanical tip (12) guided in the holder (22) of the holder and the tripod (13) passes through an opening in the vertical axis of the tripod (13) and the lid (1), and the laser beam emitter holder consists of a pin connected to a beam (27) provided with two locking cats (28) having two vertically and one horizontal adjusting screw (29) with a ball tip for precisely adjusting the laser emitter (32).