RU2874U1 - LIBRA - Google Patents

Abstract

Scales containing a bed, a lever system pivotally mounted on it, interacting with a load receiving device, characterized in that the lever system is made in the form of a parallelogram mechanism having a fixed stand combined with the bed, and a movable stand to which the load receiving device is attached, while one of the levers of the parallelogram mechanism is suspended counterweight.

Description

The utility model relates to a weight measuring technique, in particular to a lever weight scale.

Known scales of Beranger, containing the frame, articulated on it a lever system that interacts with load-receiving devices.

The result of load bearing on Beranger scales does not depend on the location on each of the bowls of cargo or weight (S.I. Gauzner, S.S. Kivilis, A.S. Osokina, A.I. Pavlovsky. Measurement of mass, volume, density, Moscow 1982, p. 174).

The design of these scales is complicated.

The objective of this proposal is to simplify the design of the balance.

The task is achieved by the fact that in the scales containing the frame, the lever system pivotally mounted on it, interacting with the load receptor, the lever system is made in the form of a parallelogram mechanism having a fixed stand, combined with the bed, and movable, to which the load receiving device is attached, this, on one of the longitudinal levers of the parallelogram mechanism, a counterweight is suspended.

Such a design with a lever system in the form of a parallelogram mechanism, in which the load-bearing structure is mounted on a movable side rack balanced by a movable counterweight, allows you to get a simple efficient mechanism of the scales.

A X dx + dN о, where A is the weight of the load;

dx - differential vertical movement of the bowl;

dN - differential of total work / perfect when moving parts of weights and weights.

From this we get: A - -, -, therefore, the weight of the cargo A does not depend on what part of the bowl the cargo is on.

One of the options for the scales is shown schematically in the drawing.

The levers 2 and 3 are pivotally attached to the housing 1, pivotally connected to the movable strut - the rod 4. On the latter, the load-receiving device is fixed - the bowl 5. The lever 2 is divided by an articulated support into two shoulders, one of which is connected to the bowl 5, and the counterweight is suspended on the second 6.

The center of gravity of each of the levers 2 or 3 is located on the line of connection of two hinges of the corresponding lever 2 or 3, the center of gravity of the counterweight 6 is on the corresponding line of the lever 2.

During movement along the counterweight lever 2, the surface of contact with the lever 2 is parallel to the specified line.

The weighing process begins with balancing the scales: the selected counterweight weight b is moved along the lever 2 until the balance is balanced.

Achieved equilibrium will be indifferent.

A new balancing of the scales occurs by placing the load on the bowl 5 and moving the counterweight b along the lever 2.

The weight of the load is determined taking into account the weight of the counterweight b, the shoulder of the lever 2 associated with the rod 4, and the amount of movement of the counterweight 6 on the lever 2.

In the General case, the implementation of the proposed design, the weighing process begins with balancing weights:

- if the balance is stable and during the weighing of the load the angle of inclination of the lever to the body is restored, then you can ignore the weight of the parts of the scales. The weight of the cargo is determined by the weight of the corresponding weights and the place of suspension of the weight on each of the levers;

- if the balance is indifferent, then the angle of inclination of the lever to the body is not significant. After balancing the weights, the weight of the load is determined by the weight of the corresponding weights and the place of suspension of the weights on each of the levers.

On the lever, you can mark the scale by which the place of suspension of the counterweight-weight on the lever is determined.

During a stable balance of the scales, the weight of the load can be determined by changing the angle of the lever during weighing, since moving the load or weight on the bowl will not change the angle of the lever.

Stable balance of the balance can be achieved by means of a spring or by introducing another structural element into the balance.

The mechanism of the balance can be flat or spatial.

The application of the proposed utility model will significantly simplify the design of lever scales.

Claims (1)

Scales containing a bed, a lever system pivotally mounted on it, interacting with a load receiving device, characterized in that the lever system is made in the form of a parallelogram mechanism having a fixed stand combined with the bed, and a movable stand to which the load receiving device is attached, while one of the levers of the parallelogram mechanism is suspended counterweight.