SU1005163A1 - Educational appliance on engineering geodesy - Google Patents

Description

one

The invention relates to educational devices and can be used in training in geodesy.

A training device for engineering geodesy is known. It contains a pressure tank with a flexible pipe, a lifting mechanism with a coding unit, a hollow beam model, hydraulic level sensors mounted on it, made in the form of transparent tubes with electrodes in the upper part, pulse counters by the number of electrodes and control unit 1.

A disadvantage of the known device is that it does not allow to demonstrate the influence of the pipeline length on the measurement accuracy, which reduces the functionality of the device.

The aim of the invention is to extend the functionality of the device.

This goal is achieved by the fact that the device containing a pressure tank with a flexible pipe placed on the case, a lifting mechanism with a coding unit, a hollow beam model, hydraulic level sensors mounted on it, made in the form of transparent tubes with electrodes in the upper part, pulse counters the number of electrodes and the control unit includes electronic keys on the number of pulse counters and an additional pipeline with three-way fluid motion switches connected to the flexible pipe and model each of the electrodes is connected to the inputs of pulse counters through the first inputs of electronic switches, the counting outputs of the control unit are connected to the second inputs of electronic switches, and the control output of the control unit is connected to the input of the coding unit whose output is connected to the control input control unit.

FIG. 1 shows a diagram of a training device; in fig. 2 - device, general view.

Claims (1)

The training device includes a housing 1 in which a pressure tank 2 with a lifting mechanism and a coding unit 3 3 is placed, a flexible pipe 4 is connected to the tank 2, in series with which an additional pipeline 5, consisting of two parallel channels, is connected with three-way switches 6 and tubes 7. An additional pipeline 5 is connected to the model of a hollow beam 8, on which hydraulic level sensors 9 are placed with electrodes 10 located in the upper part of the level sensors 9 on electronic keys 11. Electrodes 10 are through the connecting electronic switches 11 are connected to pulse counters 12, the counting outputs of the control unit 13 are connected to the second inputs of the electronic switches 11, the control output of which is connected to the coding unit 3. Above each electrode 10 there is a board 14 of the corresponding pulse counter 12, the beam is placed on the lifting leveling screws 15. The upper part of the sensors 9 communicates with the lifting tank 2 by means of an air duct 16. The training device operates as follows. Before the demonstration, using the leveling screws 15, the model of the hollow beam 8 is set to the horizontal position, and the micrometric screws 11 are set to the same count. When the control unit 13 is turned on, a lifting mechanism with a coding unit 3 is put into operation, the pulses of which through the control unit 13 and electronic keys 11 begin to flow to the counters 12 and are shown on the display 14. When the unit 3 is raised, the fluid through pipelines 4 and 5 flows into the beam model 8 and from there into the sensors 9. When the liquid contacts the electrode 10, at the command of the electronic key 11, the counter 12 stops its operation and the elevation of each of the electrodes 10 is fixed relative to the conventional initial level. To demonstrate the effect of the length of the supply line, the respective switches 6 are switched, reducing or increasing its length. The invention makes it possible to promptly demonstrate the effect of the pipeline on the measurement accuracy. The invention The training device for engineering geodesy, containing a pressure tank with a flexible pipeline placed on the body, a lifting mechanism with a coding unit, a hollow beam model, hydraulic level sensors mounted on it, made in the form of transparent tubes with electrodes in the upper part, pulse counters by number electrodes and a control unit, characterized in that, in order to extend the functionality, it contains electronic keys for the number of pulse counters and an additional pipeline with three one fluid motion switches connected to a flexible pipe and a hollow beam model; each of the electrodes is connected to the pulse counter inputs through the first electronic inputs, the control unit counting outputs are connected to the second electronic key inputs, and the control output of the control unit is connected to the input coding unit, the output of which is connected to the control input of the control unit. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2798930 / 26-12, grade C 09В 23 / 08,26.12.79 If. Sh one/ rig ..