RU2042117C1 - Platform-batcher - Google Patents

Abstract

FIELD: measuring equipment. SUBSTANCE: members for measuring are made up as four beams having the same resistance and secured at the edges of one of the platform and coupled with the other platform. Shock-absorbers are interposed between the fixed and load-lifting platforms near the beams. The shock-absorbers are made of a viscous-resilient material. Strain or inductive gages are used as pickups. EFFECT: improved accuracy. 2 cl, 3 dwg

Description

 The invention relates to measuring equipment, and more particularly to dispensing platforms.

A known metering platform containing a lifting platform, hydraulic supports, load cells and pressure gauge, hydraulic supports are made in the form of a hydraulic cylinder with cavities, with a sealed piston and two rods, one of which is connected to a lifting platform, and the other with a load measuring element, the hydraulic support cavities are filled with incompressible fluid and sequentially interconnected so that each of the lower cavities of the previous hydro-support is connected to the upper cavity of the last hydro-support, and the lower cavity of the last hydro-support ry connected to the upper cavity of the first [1]
The disadvantage of the analogue is the design complexity with low weighing accuracy and reliability due to the presence of a hydraulic system with the corresponding unreliable seals, while any liquid is partially compressible, which significantly reduces the measurement accuracy.

A metering platform is also known, comprising a fixed and a lifting platform, force measuring elements and a manometer, hydro-supports and pipelines filled with incompressible liquid, two hydro-supports are made of double-chamber double-acting, moreover, their upper chambers are connected to each other and to the manometer, and the lower chambers are connected to each single-chamber hydraulic support, arranged so that the common planes of the axes of the interconnected single-chamber and two-chamber hydraulic supports intersect, and the effective areas are connected Hydro's interconnected chambers equal to [2]
The disadvantage is the design complexity with low weighing accuracy and reliability.

Closest to the proposed is a dispensing platform containing a fixed and a lifting platform, load cells in the form of four cantilever beams with load cells, fixed at the edges of one of the platforms and connected to another platform [3]
This device also has the disadvantages mentioned above.

 The purpose of the invention is to simplify the design while increasing the accuracy of weighing and reliability.

 The goal is achieved by the fact that the load-measuring elements are made in the form of four beams of different resistance, fixed at the edges of one of the platforms and connected to another platform, between the fixed and lifting platforms, near the beams, shock absorbers made of material with viscoelastic properties are installed, the sensors used load cells or inductive force sensors.

 The introduction into the metering platform of four beams of equal resistance, mounted on the edges of one of the platforms and connected to another platform, shock absorbers and force sensors, provides a simplified design, increased vibration resistance, weighing accuracy and reliability.

 A comparative analysis of the inventive dispensing platform and prototype shows that the proposed solution meets the criteria of the invention of "novelty."

 Comparison of the proposed solution not only with the prototype, but also with other technical solutions in this technical field made it possible to identify in them a set of features that distinguish the claimed technical solution from the prototype, which allows us to conclude that the criterion of "significant differences" is met.

 In FIG. 1 shows a metering platform with load cells, side view; in FIG. 2 same, top view; in FIG. 3 metering platform with inductive sensors, side view.

 The dosing platform (Fig. 1, 2) contains a fixed platform made in the form of a trough 1 and a lifting platform 2, load cells 3 made in the form of four beams of equal resistance with stops 4 located on them, fixed along the edges of the fixed platform 1 and connected with the lifting platform platform 2. Between the fixed 1 and lifting 2 platforms near the beams of the load-measuring elements 3 shock absorbers 5 are installed, made of a material with viscoelastic properties. As sensors (Fig. 2) used strain gauges 6 or inductive sensors 7 (Fig. 3). The metering platform is additionally equipped with an adder of 8 electrical signals from all sensors.

 The dispensing platform operates as follows.

 When you install on the lifting platform 2 of the load, which is not shown in the drawing, the deformation of the load cells 3 occurs. The signal from the load cells 6 or inductive sensors 7 is fed to the adder 8 of electrical signals. Shock absorbers 5 provides intensive damping of the oscillations of the lifting platform 2. The dose of the substance to be weighed is judged by the magnitude of the signal on the adder 8.

 The presence of beams of equal resistance provides a strictly linear dependence of the electrical signal on deformation-force.

 Regardless of the location of the load on the lifting platform, the total signal on the adder 8 will be determined by the sum of the signals from each of the four sensors.

 To increase the accuracy of the measurement, instead of one load cell, four (two from the top and two from the bottom) are fixed on each force measuring element 3 and are electrically connected to each other according to a bridge circuit, which allows reproducing the "zero setting" with deformed force measuring elements.

Claims (2)

 1. PLATFORM-DOSER containing stationary and lifting platforms, load cells in the form of four cantilever beams with load cells mounted on the edges of one of the platforms and connected to another platform, characterized in that shock absorbers made between the platforms are made of material with viscoelastic properties, and an adder connected to the outputs of all load sensors, and the cantilever beams are made with equal mechanical resistance.  2. The metering platform according to claim 1, characterized in that the load cells are load cells or inductive sensors.

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