RU2037789C1 - Weighing equipment - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: weighing equipment includes base, load-taking platform with guy ropes, strain gauges, units for building-in of strain gauges positioned under load-taking platform. They present two U-shaped forks with axles. Lower fork is installed on base. Base of structure of load-taking platform is supported by upper fork. Strain gauge is attached by means of joining units between axles so that axle of lower fork is placed above axle of upper fork. EFFECT: simplified design of load-taking platform, reduced usage of metal for its manufacture, simplified assembly of equipment. 2 dwg

Description

 The invention relates to instrumentation, in particular to a weighing technique, and can be used in tensometric weighing systems of any type.

A device for weighing objects is known, comprising a load receiving platform resting on compression load cells located, in turn, on fixed foundation supports [1]
A disadvantage of the known device is the high complexity of installation work on the installation of load cells and low accuracy of weighing, due to the high sensitivity of the load cells to the occurring spatial displacements during operation of the scales, both the load receiving platform and the supports themselves, on which the load cells are mounted.

The closest in technical essence to the proposed device are scales for weighing vehicles containing a foundation base, a load platform suspended on the nodes of the load cells (made in the form of two U-shaped forks with axles between which the load cell is mounted via cylindrical hinges, with the upper fork fixed to the foundation support, and the lower one on the transverse beam of the load-receiving platform) and connected to the foundation of the scale with braces [2]
The disadvantage of this device is the complex design of the load-receiving platform and its large metal consumption due to the principle of direct tension of the nodes of the inlays with a load cell and the spacing of their attachments beyond the dimensions of the load-receiving platform; the need for a large amount of installation work.

 The aim of the invention is to simplify the design of the load receiving platform, reducing metal consumption and simplifying the installation of the device while maintaining high weighing accuracy due to the placement of the strain gauge operating in tension mode under the load receiving platform. At the same time, the strain gauge itself works in tension mode, and the insertion unit in compression mode.

 The goal is achieved due to the fact that in the known device containing a foundation base, a load receiving platform with extensions, strain gauges, load cell mounting units made in the form of two U-shaped forks with axes between which the load cell is fixed, the nodes at the mount are located under the loading platform and the axis of the lower fork is located above the axis of the upper fork.

 In FIG. 1 shows a unit for installing a strain gauge in the proposed device, front view; in FIG. 2 same side view.

 The proposed device contains a foundation base 1, a load receiving platform 2 with braces, load cells 3, nodes for mounting load cells, which are located under the load platform 2 and are two U-shaped forks 4, 5 with axles 6, 7, and the lower fork 4 is mounted on the foundation the base 1 of the weights, and the base of the design of the load receiving platform 2 rests on the upper fork 5. The load cell 3 is fixed by means of articulation units 8 between the axles so that the axis 6 of the lower fork 4 is located above the axis 7 of the upper fork 5.

To compensate for the misalignment that occurs during installation of the device, the joints are made in the form of eyebolts (the design of the joints is selected depending on the design of the load cells). In this case, saddle-shaped grooves are made in the center of the axis of each fork to center the location of the joint nodes on the axes. In order to facilitate installation and simplify the manufacture of forks deployed relative to each other by 90 ^about . The forks can be oriented in another plane. If the forks are oriented in the same plane in the cheeks of the inner fork, two holes must be made to pass the axis of the outer fork. To give greater stability and strength to the nodes of the installation of the proposed device, the forks can be supplemented with persistent scarves. For the convenience of mounting the holes in the forks (which can have different designs) under the axles are made in the form of half-holes.

 The device operates as follows.

 The force exerted by the weighed object through the loading platform to the upper fork of the mounting unit, through the axis fixed to the fork, is transmitted to the lower part of the load cell. In this case, the upper part of the load cell is fixed on the axis of the lower fork located on the fixed foundation support. Thus, the compressive force exerted on the built-in assembly is transmitted to the load cell, forcing the latter to work in tension mode. An electrical signal proportional to the force exerted on the mounting unit produced by the strain gauge is transmitted via cable routes to the secondary equipment, where it is processed to obtain an estimate of the weight of the object.

 The nodes of the load cells of the proposed device can be used in weighing systems for various purposes (platform, bunker, conveyor, etc.).

 The proposed device as part of the tensometric systems for weighing vehicles in static has passed successful industrial tests at seven oil depots in the Kemerovo region.

 Thus, the use of the proposed device in comparison with the prototype while maintaining high accuracy of weighing allows us to simplify the design of the load-receiving platform and reduce its metal consumption by placing the units of the installation with load cells under the platform; to simplify the installation of the device due to the exclusion from the design of the device of the upper support fasteners of the mounting units with load cells.

Claims (1)

 A WEIGHING DEVICE containing a foundation base, a load receiving platform with braces, strain gauges, load cell mounting units made in the form of two U-shaped forks with axles between which a load cell is fixed via articulation units, characterized in that the load cell mounting units are placed under the load receiving platform the axis of the lower fork is located above the axis of the upper fork.

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