RU94701U1 - ADJUSTABLE TENSODYNAMOMETER WITH ADJUSTABLE SENSITIVITY - Google Patents

Abstract

 An on-load strain gauge with adjustable sensitivity, consisting of a metal sensor with strain gauges installed on it, characterized in that the sensor is made in the form of the letter “H”, two guide plates are pivotally fixed to the ends of one of its longitudinal sides, the second ends of which are rigid fastening to the ends of the second longitudinal side of the sensor, and the transverse part of the sensor is made of two parts, one of which is rigidly it is attached to the longitudinal sides, and the second part is fixed to the first with the possibility of its change.

Description

The utility model relates to the field of instrumentation and can be used in the aviation and automotive industries to measure forces in parachute and tethered systems.

When testing parachutes, it becomes necessary to measure the tensile forces at the free ends of the parachute without violating the integrity of its structure during measurements. To measure the tensile force, strain gauges are usually used, a number of which are presented in the third edition of the Catalog of strain gauge sensors manufactured by Tenzo-M Weight Measuring Company CJSC. In particular, S-shaped strain gauges are used to measure tensile forces, which are a closed S-shaped metal structure with strain gauges mounted on a sensitive S-shaped element (p. 40-44).

These devices are not suitable for measuring forces in parachute and tethered systems for two reasons:

1. S-shaped strain gauges require fastening of the free ends of the parachute to the two end ends of the strain gauge, i.e. the free end of the parachute must be cut into two parts and a strain gauge built in between them, thereby violating the integrity of the design of the free end of the parachute.

2. For each force range, an appropriate strain gauge is required, as the design of the S-shaped strain gauge does not allow changing its sensitivity, and, thereby, the range of measured forces.

The objective of the utility model is to create a device that would be used to measure the tensile forces at the free ends of the parachute in a wide range of measured forces without violating the integrity of the parachute structure.

The stated technical problem is solved by a strain gauge in which the sensing element is made in the form of the letter “H”, two guide plates are pivotally attached to the ends of one of its longitudinal sides, the second ends of which can be rigidly fixed to the ends of the second longitudinal side of the sensitive element, and on the transverse side of a sensitive element, a replaceable tuning plate is installed with the thickness required to achieve the required sensitivity.

Fig. 1, 2, 3 shows the inventive laid on strain gauge with adjustable sensitivity, which consists of an H-shaped sensitive element 1 with strain gauges 2, guide plates 3, tuning plate 4.

The strain gauge works as follows. A sensitive element 1 with bent guide plates 3 is superimposed on the tape 5 of the free end of the parachute without violating the integrity of the tape. Then the plates are turned around the hinges and fixed motionless to the second longitudinal side so that the tape 5 passes under these plates. Thus, the tape 5 covers the sensing element 1 both below from below the plates, and above above the transverse part.

When a tensile force is applied to the tape 5, the longitudinal sides of the sensor element are deformed (bent), and the strain gauges 2 give an electrical signal proportional to the tensile force.

Fig. 2 represents the inventive consignment note strain gauge with adjustable sensitivity with fixed guide plates.

Fig. 3 represents the fastening of the tuning plate 4, which, changing the angles of application of the tensile load, changes the strain value of the longitudinal sides of the element and, thereby, the sensitivity of the sensor and the magnitude of the range of measured forces.

Thus, the problem of creating a device in which the same sensitive element through the use of tuning plates of different thicknesses can be used to measure tensile forces in a wide amplitude range without violating the integrity of the parachute structure.

Claims (1)

An on-load strain gauge dynamometer with adjustable sensitivity, consisting of a metal sensor with strain gauges installed on it, characterized in that the sensor is made in the form of the letter “H”, two guide plates are pivotally fixed to the ends of one of its longitudinal sides, the second ends of which are rigid fastening to the ends of the second longitudinal side of the sensor, and the transverse part of the sensor is made of two parts, one of which is rigidly it is attached to the longitudinal sides, and the second part is fixed to the first with the possibility of its change.