SU652662A1 - Reversible device - Google Patents

Claims (2)

the copies are located in the opposite itfbix diagonal x, and the third inputs of the elements And are connected respectively to the sensors "Forward move and" Reverse. FIG. 1 shows the functional scheme of the described device; in fig. 2 - time diagrams of his work. Control elements 1-4 of the reversing device are bridged and have inverse outputs. The input diagonal of the bridge circuit is connected to the DC power supply 5, and the load 6 is connected to the output diagonal. The inverse outputs of elements 2 and 3 are connected respectively to the first and second inputs of the three-input element I 7, and the inverse outputs of elements 1 and 4 with the first and second inputs of the three-input element “And 8. The inputs of elements And 7 and 8 are respectively connected in pairs to the control inputs of the corresponding elements 1-4, and the third inputs of the elements And are respectively connected to the input ports of the“ Forward 9 and Reverse 10 ”sensors. . The device works as follows. In the initial state, the signals on the input control buses of the sensors "Forward stroke 9 and" Reverse 10 are absent, elements 1-4 are closed and at their inverse outputs there are resolving unit levels, i.e., elements 7 and 8 are ready to work out any signal received on input rails 9 and 10. When a control signal arrives, the transmission meter corresponding to the forward run is input signal 9 at the output of the And 7 element, the signal "1 opening the elements 1 and 4, i.e. load 6 from a source of 5 ttitany simple current flows a current in the direct direction ui In this case, the inverse 1 output of Elements 1 and 4 generates the signal "O, the closing element AND 8. Since elements 2 and 3 remain closed at this, all unit inputs of the element 7 remain from the inverse outputs of elements 2 and 3. When the input signal changes, i.e. in this case, when the signal arrives at the input bus, “Reverse elements 2 and 3 will not open until the signal disappears, the signal from the bus“ Forward running and completely closed elements 1 and 4. In this case, after the disappearance of b From the input bus 9, the element I 7 generates at its output a signal “O, which closes elements 1 and 4. After closing elements 1 and 4, their inverse outputs produce a signal“ 1, which allows the “Reverse from the input bus 10” command to pass through And 8 to the control inputs of elements 2 and 3 and opens them in such a way that a reverse current flows through the load, and an element flows. And 7 is closed with levels of 0 from the inverse outputs of elements 2 and 3. The process is then repeated. As follows from the diagram, the circuit allows for any overlap between the control signals on the input layers and the simultaneous flow of control signals. In this case, the circuit is triggered by the priority of the signal. Claims of the invention A reversing device containing sensors "Forward stroke and" Revers and four control elements connected in a bridge circuit, to the same diagonal of which are connected terminals for connecting a DC power source, and to another for connecting a load that is different that, in order to eliminate the possibility of short-circuiting the power source, it is equipped with two AND three-input elements, and the control elements are made with additional inverse outputs, with the first two inputs of each element s and are connected to the inverse output of the diagonally arranged actuating elements, their outputs are connected with the control elements arranged in opposite diagonals x, and third inputs of AND gates respectively connected to the sensors "The forward stroke and" reverse. Sources of information taken into account during the examination 1. USSR author's certificate / № 421088, cl. H 02 H 7/10, 1969. 2. Forward Germany No. 1463821, cl. 21 d2 1-69, 1972. B