SU654525A2 - Device for adjusting parachutes of hoist cages - Google Patents

Description

one

The invention relates to control and safety devices, which ensure the safety of operation in the event of a nest and a rope breakage with a vessel in a lifting shaft installation.

According to the main author. St. No. 478765, a device for setting up the elevation stands of hoisting machines is known, containing an element connected to a trigger that reacts to the movement of the stand, an integrator with reset and counting inputs connected to the trigger outputs connected by its Counting output with one of the switches of one switch to the other. the input of which is connected to the power source. The integrator output is connected to a pulse counter and To one of the inputs (the threshold element, the outputs of which are connected to the stop element and through the third input of one of the switches to the integrator.

A disadvantage of the known device is that it does not allow for the exact fixation of the onset of the parachute and determine the idle time of the parachute, without the knowledge of which it is impossible to provide optimal conditions for braking the lifting vessel

or the choice of the optimal value of its slowdown.

The purpose of the invention is to expand the functionality of the device by ensuring the accuracy of fixing the moment of the beginning of the action of the parachute.

This goal is achieved by the fact that the proposed device is equipped with a parachute paw contact sensor with barrel guides and an additional switch, the inputs of which are connected to the parachute paw contact sensor outputs with the barrel and switch guides, and the output with another pulse counter input.

The drawing shows a functional diagram of the device.

Claims (1)

The device contains an element 1 that reacts to the movement of the stand 2 and is connected to the trigger 3, the outputs of which are connected respectively to the counting and reset inputs of the integrator 4. The output of the integrator 4 with the reset input is connected to one of the inputs of the pulse counter 5 and to one of the inputs of the threshold element 6 one of the outputs of which is connected to the input of the block 7 stop and the other through the switch 8 to the integrator 9, the output of which is connected through the block 7 of the stop to one of the inputs of the adder 10. The power source 11 is connected by one output to another input noporOiBO element 6 and the other input of the adder 10, and the other output to one of the inputs of the switch 8, the other input of which is connected to one of the outputs of the trigger 3, and the output to one of the inputs of the additional switch 12, the other of which is connected to the sensor 13 contact of the parachute's paws with the barrel guides, and the output to the other input of the counter 5 impulse. The element 1, which reacts to the movement of the stand 2, consists of a photoelectric sensor 14 containing a source 15 of light and a photocell 16, and a calibration strip 17 with holes 18 in which pins 19 are inserted. The device operates as follows. When the rope is deliberately broken, the cage 2 begins to fall freely and its trailer element activates its parachute (there may be several of them). The photocell 16, moving together with the cage 2, detects the intersection of the light flux with a pin 19 of the strip 17. At the output of the trigger 3, the set signals change places. The setup of the circuit is carried out so that at the output of trigger 3, the signal "1. Switch 8 changes its steady state and connects the source of shading 11 to the input of the integrator 9 and one of the Inputs of the counter 5 pulses, thereby fixing the beginning of the fall of the stand. In this case, the pulse counter 5 operates in the accumulation mode of a continuous sigal until the signal appears at the output of the sensor 13. The signals 1 at the output of the sensor 13 cause the additional switch 12 to disconnect from the output of the source 11. The signal in the pulse counter 5 shows the moment of the Parachute . Since until a certain time the distance between two adjacent pins 19, photocell 16 passes in a very short time, integrator 4 does not have time to integrate at its output a signal comparable in magnitude with the threshold signal from source 11 at the input of element 6. By virtue of this stand 2 to a value at which the transit time of the photocell 16 between two adjacent pins 19 remains less than a predetermined value, the output signal of the integrator 4 is reset by the signal from trigger 3 all the time and simultaneously and the second INPUT counter 5 pulses. The output signal of the latter, taking into account the distance between the pins, corresponds to the mode of braking of the cage under the action of a parachute. As the stand slows down, time becomes T TO, where Gf is the time it takes for the stand 2 to pass between adjacent pins 19, and T0 is the predetermined time-. In this case, the threshold element 6 is triggered and by applying its output signal to one of the inputs of the switch 8 switches it to the initial state. The input of the integrator 9 is disconnected from the source 11. The output signal of the element 6 simultaneously switches on the element 7, which, by closing its key element, connects the output of the integrator 9 to the input of the adder 10. In the adder 10, subtracted signals are applied to the input of the integrator 9 and source 11. The output signal of the adder corresponds to the braking time of the falling cage by the action of parachute. Thus, the introduction of the parachute paw contact sensor 13 with the guide barriers and the additional switch 12 and their connection with the remaining elements of the device allows one to fix the beginning of the action of the parachute, which makes it possible to ensure the selection of the most optimal parameter settings for setting the settings. The invention The device for adjusting the parachutes of the stands of hoisting machines according to ed. St. A 478765, characterized in that, in order to expand its functionality, it is equipped with a parachute paw contact sensor with barrel guides and an additional switch, the inputs of which are connected to the outputs of the parachute paw sensor with the guide and the switch counter input.