DE495774C - Universal joint for angled colliding levers swinging in different planes on bridge scales - Google Patents

Description

Universal joint for angular collisions, in different planes Swinging levers on weighbridges With heavy weighbridges, the support plate (bridge) rests on load levers, which eventually attach to a transmission lever. attack. This one works Via a pulling device on the load balancing and pointer mechanism of the scales. The butt joints between the transmission lever and the load levers, they like right angles or under meet at a different angle cause difficulties in that the Ends of the load lever acting on the I'b: transfer lever during the weighing process in arcs of a circle vibrate whose plane does not coincide with the plane of vibration of the transmission lever. The articulation must take these movements into account. You've already done that sought to achieve various solutions.

According to the invention, the connection of those sitting on the load lever takes place Pin and the pin of the transmission lever by using them together known multiple swingable hanging links and also known per se Multi-swinging support frames. These are supported. according to the invention against each other off and are in such a way with the pin of the load-releasing lever and the load-receiving Lever connected that the cutting edges of these tenons almost in a horizontal Lie level.

Some examples of implementation are shown in the drawing. the Figs. I, 2 and 3 show, in plan, side and elevation, a universal joint connection between a load lever and one leading to the pointer and compensating mechanism Transmission lever. Another embodiment for such a transferable can be seen graphically in Fig.1. Fig 5 is a similar illustration, only one load lever has been omitted.

The load levers 8 are equipped with fork heads 1 5 in the examples shown in FIGS. T and 3. A cutting edge pin 2o is fastened in each fork prong, the edge of which engages in a V-shaped socket shoe 41 (FIG. 3). This pan shoes sitting on threaded ends of U-shaped hanger 4o, which, as fig. 2 and 3, mounted in socket notches 39 of support frames 35 sind.- In the illustrated embodiment, access am- transmission lever 2 i two heads 1 5 on the right and left of . As a result, the device is symmetrical to the longitudinal center plane of the transmission lever 2 t (Fig.2). Thus, two support bridges 35 are provided, which are connected to one another by a transverse screw 36. This passes through an opening in the lever 21 . Each essentially triangular support frame 35 carries a socket body 37, and this is attached in an articulated manner by means of a transverse pin 38. These two socket bodies, he 37 to the left and right of the transmission lever -i, are based on the cutting edge of the load pin 2io in the transmission lever. A plate 43, which is attached between the nuts 42 securing the socket shoes 41, maintains the contact between the shoes 41 and the pin zo. The hangers 40 are V-shaped at their upper curvature (Dep. Z), and the catches 39 on the support beam 35 are correspondingly beveled laterally, in such a way that the bevel of the depressions. 39 is sharper than the curvature of the leg. Furthermore, the diameter of the recesses is greater than the diameter of the hangers 40, so that they can move in all directions in their recess.

Figs. 2 and 3 show the compact design and show like the cutting edge of the pin 2o with the cutting edge of the pin 21 o in one plane lie.

If the support lever 8 while this. Weighing up and down house swings, so the pins 2o approach or move slightly away from the transmission lever 21. Since dile hangers 40 swing out laterally to the support frames 35 in the recesses 39, so compulsions cannot occur. Since the load pin 2 i o of the lever 2 i around the pivot pin 211 swings in an arc of a circle, the load pin 21o and 21 experience he support frame '35 compared to the load lever 8 a slight lateral movement. The U-shaped Hangers 40 swing parallel to the lever l21 in the recesses 39, so that also herebhi no constraint occurs.

The configuration according to Fig. 4 and 5; however, there are the following differences. The side walls of the wells 39a are straight and the recess bottoms are wedge-shaped in cross-section, so that they have a snow: form the edge-like ridge. Instead of the U-shaped hangers 4o of the previous lead example a pair of bar links 4o «are used for the connection according to Figs. To accommodate the cutting pins 2o of the lever to be coupled are in the bar links Pan shoes 41a rotatable about bolts 45 are provided. This will get the hangers the necessary freedom of movement for the Heb-e121. It can change as a result also align the bearings automatically to the cutting edges. The necessary freedom of movement compared to the lever 12r is made possible by the ridge in the recesses 39a and also through this; that between the pans 41a and the pegs 2o quick edge support consists. Here, too, the base of the socket shoes 41a and the cutting edge bend again this load pin 21o in one plane.

Claims (1)

PATENT CLAIMS :. i. Universal joint for angled collision, Levers swinging in different planes on weighbridges, characterized in that that the load-releasing (z. B. sitting on the load lever) pins (2o) by common Use of suspension links (40, 40a) and which are known per se and which can vibrate several times Also well-known multiple swingable support frames (35, 35a), the 8-I support each other, in such a way with the pin (21o) of the load-bearing lever (z. B. transmission lever) are connected that the cutting edges of the pin of the load-releasing and this load-bearing lever in a horizontal plane. z. Universal joint according to claim i, in which the support brackets are movably mounted with. Pans rest on the tenons of the load-bearing Hiebgel, characterized in that -that the pans (37) are connected to the associated support biotck by a swivel joint each. are, whose axis of rotation is transverse to the pin (21o). 3. Universal joint according to claim i, characterized. that the hangers consist of pairs of rods, rods serve above and below by a pivot pin (45) for one in a manner known per se rotatably mounted pan are connected, of which the upper pan on the, burr-shaped The base (39a) of a groove in the support frame rests, while the lower one rests in a sheet-metal manner serves to accommodate this support lever pin.