CS200731B1 - Mechano-electrical grading sensing element - Google Patents

Description

The present invention relates to an eclonometer 8 with rolling weights, in which the transmission of inclination data by electric current is discussed.

The known eclonometer 8 with rolling weights, without the possibility of transmitting inclination data, consists of a rolling weight loose mounted on an arcuate part of the housing which is filled with a damping liquid. The damping is dependent on the liquid density and the design of the device. This depends on the size of the gap between the weight and the housing wall, which the liquid overflows when the weight is moved. Due to the force of gravity, the rolling weights occupy the arched part of the housing when you measure the glass, always the lowest position. The center of the weight on the scale of the arched portion of the sleeve indicates the inclination.

Newly, the problem is solved by a mechanical-electric eclonomer sensor according to the invention. This is based on arcuate guide tracks housed in a housing filled with an electrically nonconductive liquid. An electrically conductive rolling weight is loosely placed on the guide rails. The guide tracks are composed of electrically conductive, electrically non-conductive or electrically resistive longitudinal sections and can be provided with an inclinometer scale and a longitudinal locking bar located above the rolling weight. Depending on the path sections on which the weight is located and which sections it connects, the electrical connection is broken when the weight is on an electrically non-conductive leak, the conductive connection is on electrical conductors, and the electrical current is regulated when moving along the electrical resistance. Center of rolling weight

200 731

2Π0 731 on the guide track scale indicates the inclination value.

This eclonometric sensor is simple, small in size and relatively light in weight and allows easy connection to the electrical circuit of the inclinometer.

In the accompanying drawings, some examples of an embodiment of a mechanical-electric eclonomer sensor according to the invention are shown, in which Fig. 1 shows an echematic drawing of a sensor electrically conductive at a certain inclination; Fig. 2, Fig. 4 shows the sensor when measuring inclination, Fig. 5 is a mechanical-electrical sensor e with control electrical resistances, Fig. 6 shows the same sensor from the front view, 6 and 8 show a mechanical-electrical sensor connected to the electrical circuit of the inclinometer.

The housing of the eclonometer sensor consists of a transparent tube 1 of circular arc shape made of electrically nonconductive material, firmly closed with lids 2. In it are provided in the grooves 4 and 10 an arc guide track 3 and 9. The arc guide track 3 is formed by a central electrically nonconductive section made of nylon round section and outer electrically conductive sections 6 made of round copper wire with outlets and 8, arc guide track 9 It is formed by an electrically conductive section 11, also made of round copper wire β outlet 12. In the paths 5 and 9, electrically conductive ball-shaped weights 13 are freely supported. The cavity 14 is filled with an electrically nonconductive damping liquid. The electrically conductive weights 13 ensure a constant contact with the arch guides. By changing the inclination of the sensor ee, the inclination of the arc guides 8 and 9 and the el. the conductive weight 13e is always moved by gravity to the lowest position, its movement being damped in a known manner by the liquid which fills the cavity 14. A certain inclination of the sensor always corresponds to a certain position of el. The center of the electrically conductive weight 13 on the eclonomical scale 15 of the arc guide track 3 indicates the inclination value. If the electrically conductive weights 13 connect the electrically conductive sections 6 and 11, according to the inclination direction of the sensor, the connection is electrically conductive. If the electrically conductive weight 13 is located on the non-conductive section 5, the joint is electrically non-conductive. Fig. 4 shows a similar sensor for inclination measurement.

For him ee el. the conductive weight 13 has stabilized in the lowest position of the arc guide track 3.

The center of the electrically conductive weight 13 on the scale 15 indicates the inclination value.

Another similar embodiment of the mechanical-electric eclonometer sensor is shown in Figs. 5 and 7, wherein the grooves 16 and 17 of the rib-like projections 18 of the housing 24 accommodate an arc guide track 3 and 9. The arc guide track 3 is formed by an electrically conductive section 11 through an outlet 19. and the arc guide track 9 is formed by a central electrically non-conductive section 5 β of the outer electrically resistive sections 20 formed as layer resistors e outlets 21 and 22. The electrically conductive weight 13 is loosely supported on the arc guide tracks 3 and 9. The conductive weights 13 on the non-conductive run, 5 of the guide track 9, are electrically non-conductive. If ee el. The conductive weight 13 on the electrically resistive sections 20 forms an electrically conductive sections 11 and 20 according to the inclination direction, together with an electrically conductive weight 13 a control resistor. Above the arc guides 3 and 9 and electrically

200 731 with a conductive weight 13 A securing bar 23 is provided which prevents the electrically conductive weight 13 from falling out of the arc guide tracks 3 and 9 when the seat is tilted exceptionally.

FIG. 8 schematically illustrates the electrical connection of a mechanical-acoustic inclinometer to the electrical circuit of the inclinometer. The arc guide tracks 319 are formed at their center by an electrically non-conducting section 5, and at the edges by electrically conductive sections 6, 8 outlets 25. 26, 27. 28.

An electrically conductive weight 13 is loosely mounted on the guide rails. A power supply 29 and a signal lamp 30 are connected in the electrical circuit. The terminals 25 and 26 and 27 and 28 are interconnected. The positive pole of the power supply 29 is connected to the terminal 25 and the negative pole of the power source 29 is connected to the terminal 27 via the signaling lamp 30. The conductive weight 13 on the sections 6 of the arc guide tracks 3 and 9, depending on the sensor inclination direction, is an electrically conductive and signaling lamp 30 lit. 3e, if the electrically conductive weight 13 on the non-conductive sections 5 of the arc guides 3 and 9, the connection is electrically non-conductive and the signal lamp 30 is not lit.

Claims (3)

A mechanical-electrical inclinometer with a rolling weight loosely mounted on an arcuate portion of the housing that is filled with liquid, characterized in that the electrically conductive weight (13) is loosely supported on an arc guide tracks (3, 9) housed in an electrically filled housing non-conductive liquid and composed of electrically conductive sections (6, 9) and electrically non-conductive sections (5), or electrically resistive sections (20). Mechanical-electronic inclinometer according to claim 1, characterized in that the at least one arc guide track is provided with an eclonometer scale (15). Mechanical-electric inclinometer according to Claims 1 and 2, characterized in that a longitudinal locking strip (23) is arranged above the arc guide tracks (3, 9) and the electrically conductive weight (13).