SU981936A1 - Commutator - Google Patents

Description

(54) SWITCH

Claims (2)

The invention relates to automation, telemechanics, and automation of production processes and can use a strict sequence of commands in switching devices as a distributor with preservation of information when temporarily relieving the voltage of the power source. A switch containing an OR element, an electromagnetic relay, a power source and cells, each of which consists of a remote switch, a control button, a diode, a capacitor, a resistor 1, is known. The disadvantages of such a device are low reliability due to the inability to perform a strict command sequence. operator's errors, as well as the dependence of the time of supplying the control pulse (time of pressing the control button) on the capacitance of the capacitor and the resistance value The reset relay is complex, due to the presence of a large number of elements, including the time of the large-capacity master (storage) capacitors used to supply voltage on the windings of the remote switch and the reset relay, high power consumption due to the presence of resistors connected in series with contacts of control buttons, a power source having an overvoltage required to operate the turn-on windings of a remote switch during discharge of condensation ora through series resistor, relay reset, the contacts of which include simultaneously winding-hook all remote switches. The closest in technical dryness and proposed is a switch containing electromagnetic relays, daodas, control buttons, power source, resistors,; 1-step cipher 2. This device has the following disadvantages: low reliability due to the impossibility of ensuring the execution of commands in case of operator errors, since when the control button is pressed, power is removed from the anodes of the separation diodes, and therefore 3981, and from the blocking contacts of the relay, imostyu time trip control button contacts nor the time releasing the relay, time softening Kani blokirovoch} Sh1h contacts, which should be Bolz nereleta contact time control buttons, information loss in the case of SHORT-shogo deprotection hlsni supply voltage, which limits the functionality of the device; the complexity caused by the presence of a large number of elements, including diodes, resistors and diode igifratora, high power consumption, due to the presence of electromagnetic relays, the consumption of electricity in the process of working the device, ballast resistors constantly under voltage, and the power source having an increased voltage The voltage required for the operation of an electromagnetic relay through a ballast resistor. U.snWiO's invention is interfacing, improving reliability, reducing power consumption of a device, and also expanding the functionality of a device, expressed in depletion of operation when a short voltage is removed from the power supply voltage. The goal is achieved by the fact that a switch of a software device consisting of K bits, the number of which corresponds to an even switched channel, and each of the bits contains a control button and a diode, and a power switch with a contact group is inserted into each bit. the first outputs are: the windings are turned on and the remote switches of each bit are connected, respectively, with the first contact of the control button and the cathode of its discharge, the second output of the control buttons is odd The second bits are connected to the break contact of the contact group of the remote switch of the discharge switch and, besides the first bit, with the switch contact of the contact group of the remote switch of the first odd previous discharge, and the contact group of the contact switch of the remote switch of the last odd bit connects to the positive terminal. power supply, the second terminals of the control buttons of even bits are connected to the closing contact of the contact group of the remote: previous switch One odd bit and the anodes of the first previous odd and even bit diodes, and for the second bit from the first odd and last even bit diodes, the second leads of the turnings of all the even bits connected to the breakers of the contact groups of their remote switches bit for even bits, except for the second one, with the overload contact of the contact group of the remote switch ;; lag of the even bit, and the switching contact of the contact points of the remote switch The last even bit is connected to the negative power supply bus; the second winding leads for all even bits are connected to the contacts of the contact switches of their bits and the second windings for remote switches of the first previous odd bits, and, except for the last bit, with the second terminals of the windings of the inclusion of remote switches of the first subsequent odd bits, for the last even digit - with the second terminal of the windings of the inclusion remote switch first discharge. The drawing shows a circuit diagram of the proposed device. The device contains a source of power and in each case the control button 2, diode 3, remote switch 4, group 5. contacts of remote switch 4. The device operates as follows. Suppose, in the initial state, the remote switch 4 bits K (each bit of the device contains a control button 2, a diode 3, a remote switch 4, a group 5 of the contacts of the remote switch 4 of its bit) is in the on position, and therefore the second terminal includes The windings of the remote switch 4 of the first discharge are connected via a short-circuiting contact of the group 5 of the contacts of the remote switch 4 of the switch K to the negative spike of the power supply 1. When the first control button 2 is pressed, the positive bus of the power source 1 is connected in series to the disconnecting contacts of groups 5 of the contacts of the remote switch 4 of all odd-numbered bits to the first output winding of the remote switch 4 of the first discharge. The remote switch 4 of the first discharge is triggered by its disconnecting contacts of group 5 of the contacts of remote switch 4 disconnecting the power supply winding of the remote switch 4, and closing coils of 5 contacts of the remote switch 4 through the first discharge diode 3 connected in the forward direction prepares the power supply circuit winding disconnecting a remote switch 4 of the first discharge and simultaneously through the diode 3 discharging K connects the power to the winding of the remote switching The 4th bit K slot. The remote Q switch is disconnected by its disconnecting contacts of group 5 of the contacts of the remote switch 4 and the series of disconnecting contacts of groups 5 of the contacts of the remote switch of 4 even bits connecting the negative power supply 1 bus to the second output winding terminal of the remote switch 4 second digits When the second control button 2 is pressed, the device circuit operates in a similar way. When pressing the button 2 of the control of any other bit (in case of violation of the sequence of operations), the turn-on winding of the remote switch 4 does not work because the positive or negative bus of power supply 1 is not connected to the make contacts of group 5 of the contacts of the remote switch 4 of the previous bit. Diodes 3, included in the circuit of the windings of the remote switches, serve to eliminate the creation of false connections during operation of the device. When the voltage of the power source 1 is relieved, the received information is not disrupted. Introduction to the remote switch device and contact switch group of the remote switch allows you to refuse to install the diode encoder and the ballast resistor in each bit of the device, and thereby simplify the design, increase reliability, reduce power consumption and expand the functionality of the device. edge operation: low power supply and operator error. The invention consists of a switch consisting of K bits, the number of which corresponds to an even number of switched channels, and each of the bits contains a control button and a diode, and a power source that, in order to simplify, increase reliability, reduce power consumption and expanding the functionality by providing the liver with a short-term supply voltage, a remote switch with a group of contacts is inserted at each discharge, with the first terminals of the switch-on windings on 1b1x ion switches of each bit are connected respectively with the first contact of the control button and the cathode of a diode of their discharge, the second outputs of the control buttons of the odd bits are connected to the disconnecting contact of the contact group of the remote switch of the discharge, and the contacts of the remote switch of the first odd previous bit, and the switching contact of the group of contacts of the remote switch of the last odd bit is connected to the floor power supply bus, second outputs of control buttons of even bits (; connected to the closing contact of the contact group of the remote switch of the previous odd discharge and anodes of the diodes of the first previous odd and even bits, and for the second discharge with the anodes of the first odd and last even diodes bits, the second terminals of the windings turn on all the even bits are connected to the opening contacts of the contact groups of the remote switches of the bit, and for even bits, except the second The switching contact of the group of contacts of the remote switch of the previous even digit, and the switching contact of the group of contacts of the remote switch of the last even digit are connected to the negative power supply bus, the second winding leads for all the even bits are connected to the contacts of the groups of remote switches of their bits the second pins of the windings pick up the remote switches of the first previous odd bits, and, besides the last bit, with the second you by the waters of the windings is turned on by a distance of the first switches of the first consecutive odd bits, for the last even discharge, with the second terminal of the turn-on winding of the remote switch of the first discharge. I Sources of information taken into account in the examination 1. USSR author's certificate number 784018, cl. H 04 L 13/12, 1980. 2. USSR author's certificate number 744460, cl. G 05 B 19/08, 1980. | gne ™ -i w ™: t four: Pa5f) d to 5, r fJepSbiO dd