SU783593A2 - Rejecting weigher - Google Patents

Description

(54) TRAINING SCALES

Claims (2)

The invention relates to weighing technology and, in particular, to scales with automatic balancing. In the main invention of auth. St. N543833 sanded balancing scales containing a sensitive element with a load-carrying cup, a base, a suspension of a sensitive element on crossing straps and an automatic balancing system consisting of a non-collation sensor, amplifier, compensator, and a Tji reading device. These scales have insufficient accuracy and measuring range due to the need to use the load capacity of the compensator to balance the mass of the sensing element and the cup by entering the signal of the electric tar and that leads to additional heating of the compensator and weights. The aim of the invention is to increase the accuracy and the expansion of the measurement range. This goal is achieved by the fact that the scales are equipped with two rotary lever systems, each with a fork at one end and a weight dp of balancing the mass of the sensitive element with the cup at the other, and an additional horizontal stretch in the middle part connected with the sensitive element. - with forks of lever systems, as well as the fact that the lever systems are equipped with a pivotally mounted thrust for installing additional weights. The drawing shows schematically the screening scales. The sensing element 1 of the scale with the load-receiving cup 2 dp of the cargo under study 3 is equipped with a coil 4 with momentless current leads 5 and 6 installed inside the magnetic system 7, together with the coil forming the electromagnetic compensator 8, as well as the flag 9 controlling the operation of the non-compensation sensor 10 connected to the input And the amplifier 12, which supplies the equilibrium signal 3 to the coil 4 of the compensator 8. The sensing element 1 is suspended on supporting cross-section horizontal stretches 13 and 14 connected to the base 15, and, in addition, bzhen additional horizontal stretch zhkoy 16 connected with it in its fedney portion 17 and the ends 18 and 19 with the forks 20 and 21 of the rotary lever systems 22 and 23, the opposite ends 24 and 25 which are provided with weights 26 and 27, uravnoveshivayuschnmi weight gg. of the sensing element 1 with the cup 2. In addition, the lever systems 22, 23 are equipped with a pull 28, pivotally connected by means of elastic suspensions 29 and 30, on which, mainly in its middle part 31, a set of weights 32 are installed, the removal and imposition of which The weight mechanism 33 is composed of pickups 34, cams 35, springs 36, and a reference limb 37. The equilibrating signal fed to cat 4 of compensator 8 is read by a counting device (for example, a digital voltmeter) 38 connected to a reference resistor 39 at the output of the ZF, mustache 12. The divisor input electrical correction signal D to the coil 4 is produced by the block 41. Working AIAM is as follows. Preliminary, with the help of movable cargoes 26 and 27, an initial balancing of the gpd mass of the sensitive element I together with tea 2 is carried out until the support stretches 13 and 14 i occupy the horizontal position and the initial deflection D hgO, and for the time being an additional horizontal stretch 16 will transmit an upward force fp equal to the weight P of the sensing element 1 with the cup 2, where and the acceleration of the free fall. Next, a cargo with a mass of rrij is placed on the cup 2, and the sensitive element 1, together with the flag 9, is moved all the way down to D h. In the noncompection sensor 10, a control signal Vg arises, which, after amplification in amplifier 12, enters the form of an equilibrium signal L into the coil 4 of the compensator 8, which creates a pushing force F, equal to the weight P of the load 3, 34 and then the sensitive element 1 returns to the position close to the initial value, A h - 0. The measured mass t is read by the reading device 38 according to the formula: KjU, where K and Kj are the scale factors; Uj - readings of the readout device 38. To extend the measurement range, when measuring the mass of large loads 3, the weight mechanism 38 is used to impose 32 weights on a load of 28, which leads to the creation of an additional counterbalancing force that pushes the sensitive element 1 up. the unloading mechanism made in the form of additional stretching, pivoting lever systems with forks and balancing weights, as well as weights with weights, makes it possible to significantly increase the accuracy and extend the range and measurements of the balance by reducing heating and adjusting the compensator balancing currents necessary for compensating for the mass of the sensing element and the cup. Claim 1. Informative scales according to ed. St. No. 543833 characterized in that, in order to increase accuracy and expand the measurement range, they are equipped with two pivotal lever systems, each with a fork at one end and a weight to balance the MaccbF sensing element with the cup at the other end, and additional horizontal stretching, in the middle parts connected with the sensitive element, and at the ends - with hooks of lever systems. 2. Scales according to claim 1, characterized in that the lever systems are provided with a pivotally mounted thrust for installing additional weights. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 543833, cl. Q 01 Q 7/04, 10/20/75 (prototype).