SU746196A1 - Weighting apparatus - Google Patents

Description

(54) SCALES

Claims (1)

The invention relates to construction engineering and can be used to measure small quantities. Beads with enhanced accuracy in the pharmaceutical, food, jewelry, instrument-making, chemical and other industries. Scales are known which contain a base, column, prism, rocker arm, bows and air dampers. A disadvantage of the known weights is low accuracy. The closest to the technical essence are the scales containing the lower and upper bases, the column of the king with the cups, the arrow with the scale 2. However, the known scales have a low accuracy and a limited rate of speed, which is explained by the free movement of the cups to the base, regardless of the weight to be determined. The aim of the invention is to improve the accuracy and speed of weighing. The goal is achieved by adding a prism to the balance; it is mounted above the beam, in which an additional landing slot is made using a prism, two hollow magnets with nonmagnetic shells and rigidly covered with magnets nonmagnetic are attached symmetrically to the center line of the weights with a prism. low friction liners, in which cylindrical ferromagnetic cores with flexible tubes are freely located, connected to the rocker symmetrically with respect to the jack Here, there are two landing arms, rigidly connected to the column, with the lengths of the strands between the limiters and the cores arranged vertically, and the lengths of the straps are chosen from the condition. where Ff is the force of the pull of the core by the magnet; RK is the weight of the rocker with cups; P is the maximum weight for a given weight class. The drawing schematically shows the scales. / The balance contains a bottom base 1 with set screws 2 and 3. A head 4, placed vertically, is rigidly connected to the base. At each point, the auxiliary prism 5 and the working prism 6 are pointed at each other. The prism 5 and the working prism 6 are located between the prisms. Between the prisms 5 and 6 there are coromas 7 q fitting slots for the prisms. The distance between the working points of the prisms is chosen: a large distance between the points of the rocker arm landing nests. Arrow 8 is fixed on the yoke on the edge of the box. On the arms there are cups 9. To the upper base 10, symmetrically to the centerline of the scale, non-magnetic cases 11 and 12 are attached with cylindrical with a protrusion magnets 13 and 14, gestures to them. Low sleeves 15 and 16 with low friction coefficient. Inside the sleeves 15 and 16 are placed ferromagnetic cores 17 and Y8, equipped with flexible rods 19 and 20. The free ends of the flexible rods are connected to the rocker symmetrically with the seating sockets. The rods 19 and 20 are passed through the limiting brackets 21 rigidly connected to the rod 4. The ends of the stops are placed so that the lengths of the r between the corresponding core and the stop are vertical. The lengths of t g are chosen such that forces would act on the Hearts and F, in sum, exceeding the weight. rocker cups and doubled maximum measured weight for a given class of weights. The principle of the balance is as follows. The cores 17 and 18 placed into the inside of the cylindrical magnet are affected by the larger retracting forces, the greater: the distance between the upper planes of the core magnet. Consequently, by selecting the length of m, it is possible; one can comprehend such velichin of engaging efforts that will compensate for the weight of the coro-1 thought with the cups. With a subsequent decrease in length, the pull-in forces Rd and P increase. In accordance with this, the length m is chosen such that:) where the engaging force is deist. the weight of a box with cups on one of the core P; xm is the maximum estimated measured weight for a given class of weights (0-100 mg, 0-1 g, 0-10 g, etc.), i.e., the lower the tension of the t g, it possesses greater accuracy.: J-4rrK -:; - i-- - - i ----: l The scales are more precise (more sensitive), the closer to the landing slots the ends of flexible t are fixed. Under the specified conditions, the beam 7 is under the force of F and F pressed against the prism 6 with a force equal to 7t –P 0 P «p: K and will take a horizontal position. If, however, one of the cups is put in the necessary unit of weights (for example, in the right), then the weight of the balance acts on the right end of the rocker. This violates the equilibrium placement of the rocker arms. At the same time, the core 18 is somewhat pulled out of the area of the magnet 14, and the core 17 is drawn into the area of the magnet 13. The forces acting on the cores change)) O) taking into account (3) a new placement of the rocker arm is taken from the condition of equality of moments () & w (, t, j from here / the length of the arm of the rocker arm 2.- dLin of the shoulder of the applying force; G is the rigidity of the magnetic spring. From the expression (5) it follows that under the weight of the weights the rocker occupies a new, but not extreme, position as in the known scales, in which with any imbalance, one and cups are required to touch the bottom base. If the weight of the weight is compensated for by the weight of the measured substance, the beam moves to a strictly horizontal position, but at the same time, the pressure on the upper prism 6 is reduced by twice the weight of the weight. in the proposed scales, it is determined only by twice the maximum weight of the measured substance, while in the known scales an incomparably greater friction of the weight of the rocker arm from the pan is added to this friction. , The invention of the Scales, containing the bottom and, rather, the base, column, prism, oromishlo with cups, the arrow with the scale