SU1275181A1 - Protection arrangement to press - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to the construction of devices for the safety of service of maintenance (4) satisfaction for pressure treatment. The aim of the invention is to increase reliability by increasing the density of the radiation curtain by operating each radiation source at all radiation receivers. The goal is achieved by the fact that the sources and receivers of radiation are located around the protected zone in such a way that each source works simultaneously on all the receivers, as a result of the Czech Republic an increase in the number of rays is achieved, and consequently, the probability of crossing the rays in this zone increases. pulse distributor and multiple input circuits AND; operation of the device is achieved with alternate and cyclic switching of the pulse generator to the radiation sources with simultaneous simultaneous switching of the two-input circuits AND and asynchronous trip-er in the receiving part of the device. The output elements of the device are successively connected (L key and executive relay, the contacts of which are used in the press control circuit. 1 SH1-.

Description

The invention relates to mechanical engineering, in particular to the design of 'devices for the safety of maintenance of equipment for pressure treatment.

The purpose of the invention is to increase reliability by increasing the density of the beam curtain due to the operation of each radiation source to all radiation receivers "

The drawing shows a structural diagram of the proposed device.

The protective device to the press contains a pulse generator 1, a pulse distributor 2, radiation sources 3 '(for example, LEDs), radiation receivers 4 (for example photodiodes), amplifiers 5, the first multi-input circuit And 6, the inverter 7, two-input circuits Ts 8, asynchronous triggers 9, the second multi-input, circuit I 10, trigger 11, synchronous trigger 12, key 13 and actuating relay 14.

The device operates as follows.

Electric pulses of constant voltage from the pulse generator 1 through the pulse distributor 2 are supplied alternately and cyclically to the respective sources 3, which form radiation pulses (light or infrared) sent along the protected area of the press space to the radiation receivers 4. The radiation pulses received at the receivers 4 are converted again into electrical pulse signals, which are amplified in the amplifiers 5 and fed to the inputs of the first multi-input circuit And 6, the output signal of which is inverted by the inverter: 7 and fed to the first inputs of the two-input circuit And 8, to the second inputs of which pulses from the output of the distributor 2. In the presence of all signals simultaneously in the form of pulses of positive polarity at the inputs of the Ibi circuit of I8 circuits, asynchronous triggers 9 switch to the state of a logical unit.

Next, the signals fall on the inputs of the second multi-input circuit And 10, the signal from the output of which puts the trigger 11 in the state of the logical unit. The state of the trigger 11 is remembered at the end of each cycle of the device by a synchronous trigger 12, which controls the operation of the key 13, which includes the actuating relay 14, which commutes with its contacts of the press control circuit. Before the start of each cycle of operation, triggers 9 and 11 are set to their initial state (logical zero state).

When one or more rays of the protective curtain crosses with an opaque object, for example, with the operator’s hand, the signal does not appear at the output of the And 6 circuit, as a result there is no corresponding pulse at the output of one or more And 8 circuits and at the end of the device’s cycle the corresponding triggers 9. do not return to state of a logical unit. For this reason, there is no signal from the output of circuit I 10, which sets the trigger 11 to the state of a logical unit, and the signal in the form of a small logic zero voltage level is recorded in synchronous trigger 12, as a result of which the key 13 is de-energized and the executive relay 14 is connected with its normally open contacts. > disables press control circuits.

The protective device to the press has high operational reliability, because it works with pulsed modulation of radiation sources, which also provides a longer average life of the sources due to a decrease in their average operating temperature. When the number of source-receiver pairs is equal to n, the total number of rays in the closed curtain of the proposed protective device is h, which ensures an increase in the density of the beam curtain in the protected area of the press. This determines the efficiency of use of the device.

Claims (1)

The invention relates to mechanical engineering, in particular, to the construction of devices for the safety of maintenance of equipment for pressure treatment. The purpose of the invention is to increase reliability by increasing the density of the beam curtain due to the operation of each radiation source for all radiation receivers. The drawing shows the structures of the circuit of the proposed device. The protective press device contains 1 pulse generator, 2 pulse distributor, 3 radiation sources for example, light-emitting diodes), 4 radiation receivers (for example, photodiodes), amplifiers 5, the first multi-input circuit AND 6, inverter 1, two-code circuits or 8, asynchronous three meters 9, the second multipath, circuit 10, trigger 11, Synchro Trigg 12, the key 13 and actuator switch 14 January. . The device works as follows. The DC voltage pulses from the pulse generator 1 are transmitted alternately and cyclically through the pulse distributor 2 to the respective sources 3, which generate radiation pulses (light or infrared), sent along the protected area of the press space to the 4 radiation receivers. The radiation pulses received in the receivers 4 are converted again into electric pulse signals which are amplified in amplifiers 5 and fed to the inputs of the first multiple-input circuit AND 6, the output screen of which is inverted by the inverter 7 and fed to the first inputs of the two-input circuits I 8, to the second inputs which are given pulses from the output of the distributor 2. If all signals are simultaneously in the form of positive polarity impulses at the inputs of the circuit 6 and the circuits 8, the asynchronous triggers 9 switch to the state of logical one. The signals then go to the inputs of the second multi-input circuit AND 10, the signal from the output of which transfers the trigger 11 to the state of a loch unit. The state of the trigger 11 is memorized at the end of each cycle of operation of the device by a synchronous three; a ger 12 controlling the operation of the key 13 including the execution relay 14 commuting with its contacts of the press control circuit. Before the start of each cycle of operation, the triggers 9 and 11 are set to their initial state (logical zero state). When one or several rays of the protective curtain intersect with an opaque object, such as an operator's hand, the output of the circuit 6 does not appear, as a result the corresponding pulse at the output of one or more circuits AND 8 and by the end of the cycle of operation of the device the corresponding triggers 9. do not return to the state of the logical unit. For this reason, from the AND 10 circuit code there is no signal that sets three to 11 11 in the state of a logical unit, and the signal in the form of a low voltage level of logic zero is written to the synchronous trigger 12, so that the key 13 de-energizes the executive relay 14 with its normally open contacts, disconnects the control circuit of the press. The protective device to the press has high operational reliability, since it operates with pulse modulation of radiation sources, which also provides a longer average service life of the source chnikov in connection with lowering of the average operating temperature. When the number of pairs of source receiver is equal to h, the total number of rays in a closed curtain of the protective device to be equal to h, which provides an increase in the density of the beam curtain in the protected area of the press. This determines the efficiency of use of the device. Claims of the Invention Protective device to the press, comprising: located on opposite sides of the protected area sources of radiation and receivers, amplifiers of signals of receivers, as well as a gating unit in the form of a generator connected in series; and a pulse distributor, the outputs of which are connected to radiation sources, characterized in that, in order to increase reliability by increasing the density of the beam curtain due to the operation of each source on all the receivers