SU1083023A1 - Press operation zone protection device - Google Patents

Abstract

PROTECTIVE DEVICE OF THE WORK AREA OF THE PRESS, containing ultrasonic oscillators, acoustic emitters, as well as reflectors, and receivers connected through amplification channels and an executive relay to a press control system, characterized in that it is equipped with a multi-input circuit I and also connected to the latter by a trigger and a transistor switch, while the emitters and receivers are located in different planes and under the angle to the reflectors, together with the latter form a closed protective zone y, each of the amplification channels is made in the form of a broadband amplifier and a threshold element connected in series, the outputs of which are connected to the inputs of the multi-input circuit AND, the output of the transistor switch is connected to the executive relay, the acoustic emitters are connected to the respective generators, and the latter are made offset one relative to another frequency response. TO

Description

The invention relates to mechanical engineering, in particular to the design of equipment for pressure treatment. A protective device for the working area of the press is known, which contains ultrasonic oscillators, acoustic emitters, as well as reflectors and receivers connected through the amplification channels and the executive relay to the press control system 1. However, the known system provides protection only for one side of the press. zones need to be installed in four sets of devices, which makes it much more difficult to set up and maintain. In addition, the beam curtain is made at the same frequency, which reduces the noise immunity of the system, and, consequently, reliability. The purpose of the invention is to increase reliability. The goal is achieved by the fact that the protective device of the working area of the press, containing ultrasonic oscillators, acoustic emitters, as well as reflectors and receivers connected through the amplification channels and the executive relay to the press control system, is equipped with a multiple input circuit And trigger and transistor key, with emitters and receivers located in different planes and at an angle to the reflectors, together with the latter forming a closed protective zone, each channel gain is designed as a series-connected schirokopolosnogo amplifier and the threshold element whose outputs are connected to inputs of the AND circuit multiinput, tranzistornogr key output associated with the actuating switch and the acoustic emitters are connected to respective generators, and the latter are made with offset relative to each other frequency characteristics. The drawing shows a block diagram of the device. The device consists of ultrasonic oscillators 1, the frequencies of which correspond to the own 45 resonant frequencies of the emitters 2, reflectors 3, receivers 4, the natural resonant frequencies of which coincide with the frequencies of the corresponding emitters 2 and oscillators 1 included in the input circuits of the broadband amplifiers 5, as well as the threshold elements 6, which serve to establish the minimum signal level at which the device of the multi-input circuit AND 7, the trigger (Schmitt) 8, which operates using a transistor key 9, the executive relay 10, commuting its contacts in the control circuit start circuits press. Q The device works as follows. The ultrasonic frequency oscillations from the oscillators 1 are transmitted to the respective radiators 2 and, converted into a beam of acoustic oscillations, fall on the reflectors 3 mounted at an angle to the radiators 2 and the receivers 4, thereby ensuring coverage of the working zone from all sides. Emitters 2 and receivers 4 are made in the form of discs from metallized piezoceramics with radially fixed elastic elements. In radiators 2, when applying ultrasonic frequency electric oscillations in a phase with alternating voltage, the diameter of the piezoceramic disk changes, while the elastic element is deformed and emits a beam of acoustic oscillations. In receivers 4, the inverse piezoelectric effect converts acoustic oscillations into electrical signals. The electrical signals amplified in the amplifiers 5 are fed to the inputs of the threshold elements 6, in which they are detected and added to the reference potential. The predominance of the signal potentials over the reference voltage of the threshold elements 6 creates total potentials equivalent to units at all inputs of the And 7 multi-input circuit and, respectively, at its output. In this case, the trigger (Schmitt) 8 is triggered, the transistor switch 9 is opened; and relay 10 operates and closes the press control circuits. When one or several acoustic oscillations are partially or completely overlapped by extraneous objects in any area from radiators 2 to receivers 4, signals do not come through corresponding channels or decrease to a level equal to or less than the potential of the established reference voltage in threshold elements 6. This potential is equivalent zero at the corresponding inputs of the circuit And 7, and, consequently, at its output. In this case, the trigger (Schmitt) 8 returns to the initial (stable) state, the transistor switch 9 is locked, the relay 10 de-energizes and disengages the press control circuits. In the case of a change in the size of the protected zone, the sensitivity of the amplifiers 5 is adjusted, and the reference voltage adjustment in the threshold elements 6 ensures reliable operation of the device even with partial overlapping of one or several acoustic vibration beams. The device is free from light, electromagnetic and acoustic interference. The separation of radiation patterns of emitters and receivers ensures protection of the working area of the press from all sides and eliminates the possibility of impacting

receivers, reflected by the hands of the operator or foreign objects, the signal, which increases the reliability of protection. Frequency separation of the emitters excludes the effect of acoustic waves on neighboring receivers, which allows the converters to be as close as possible to each other and make the acoustic curtain almost solid, protecting large areas of the working areas of the pressing and other technological equipment. The use of several generators with different hours does not require focusing rays, which greatly simplifies the device.

The device can be used to protect the working area of presses, guillotine shears, injection molding machines and other technological equipment having a large working area.

The efficiency of using the device is achieved by expanding its capabilities, as well as increasing reliability.

Claims (1)

A PRESS WORK AREA PROTECTIVE DEVICE, containing ultrasonic vibrators, acoustic emitters, as well as reflectors and receivers connected through amplification channels and an executive relay with a press control system, characterized in that, in order to increase reliability, it is equipped with a multi-input circuit AND , as well as connected to the last trigger and transistor key, while the emitters and receivers are located in different planes and at an angle to the reflectors, forming together with the latter a closed protective zone, each The second of the amplification channels is made in the form of a broadband amplifier and a threshold element connected in series, the outputs of which are connected to the inputs of the multi-input circuit AND, the output of the transistor switch is connected to the executive relay, the acoustic emitters are connected to the corresponding generators, and the latter are made with frequency characteristics offset from one another. Ω