SU951245A1 - Device for checking electric contact switching non-simultaneity - Google Patents

Description

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The invention relates to instrumentation technology and can be used to control the non-simultaneity of closing (opening) the contacts of electrical apparatus.

A device is known for monitoring the non-simultaneity of the closing of the bridge system, which contains the power source of the contact groups and the signal device 1.

The control of switching non-simultaneity with the help of this device is carried out by the operator visually at the moment of ignition of signal lights included in the circuit of monitored contacts.

It is also known a device for monitoring the switching timing of relay contacts, comprising a power source for a relay coil, a power source for the contacts of a relay circuit, a control pulse source, a recording unit and terminals for connecting contacts 2.

This device does not allow tolerance control of non-simultaneity

switching contacts of the same I same bridge.

The closest in technical essence to the invention is a device for removing the static opposing characteristics of an electrical apparatus, comprising a synchronous electric drive, a strain gauge force sensor, a power supply and balancing unit, a measuring amplifier of direct current showing and registering the device and the apparatus under test 3.

The known device makes it possible to remove the full static opposing characteristic of the contact system by recording it on the chart of the recording device and using it to determine the contact parameters with the necessary accuracy. However, this device also does not allow tolerance control of non-simultaneity of switching contacts.

Claims (3)

The aim of the invention is to expand the functionality of the device by allowing the tolerance control of non-simultaneous switching of contacts. . This goal is achieved by the fact that, in a device for the removal of a static opposing characteristic, containing a synchronous electric drive, isometric. a force sensor having a kinematic connection with a synchronous electric drive and a moving system of a monitored electrical device, an electrical input of a strain gauge force sensor is connected to the power supply, and the output is connected to the input of a measuring current amplifier, the output of which is connected to the recording device, and. terminals for connecting movable and fixed contacts of a controlled electrical device, two logical elements were introduced: the AND – NE ment, four AND logic gates, two NOT gates, a pulse generator, a pulse shaper, a pulse counter, three triggers and resistors, and the inputs of the first logic gage AND-NOT connected directly to interconnected pins for the connection of fixed contacts of a controlled electrical apparatus of switching groups, and inputs. the second logical element AND-NOT through the elements NOT, the terminals for connecting the fixed contacts of both groups through the resistors are connected to the power supply, and the output 111 for connecting the moving bridge contacts are connected to the common power supply cable and the outputs of the first and second logical elements AND-NOT are connected to the inputs of the first logic element And, the output of this element is connected to the inputs of the first trigger, pulse generator and to one of the inputs of the second logic element And, to the other input of this second logic element And The output of the pulse generator is specified, and the input of the pulse generator is connected to the output of the measuring DC amplifier, the output of the second logic element I is connected to the counting input of the pulse counter, the setting input of the pulse counter is connected to the output of the pulse former, and the output of the counter is connected to one input of the third and the fourth logical elements And, the other inputs of these logical elements And connected to the output of the first trigger, the outputs of the third and fourth logical elements And connected to the inputs of the second second and third flip-flops. FIG. 1 shows the structures on the scheme of the described device; in fig. 2 is a static countermeasure characteristic of a mechanical (force of a moving system with a switching group of contacts and a device operation diagram. 54 The device contains a synchronous electric drive 1 connected to a strain gauge force sensor 2, power supply unit 3, which is connected via a force sensor 2 to a measuring amplifier current 4, connect} np w to the registering device 5 and the pulse generator 6. Terminals for connecting the contacts of the monitored device 7 are connected to the AND-HE 8 and HE 9 gates, as well as to l a huge element NOT 10 and through resistors to the power supply unit 3. The output of the logical element NOT 10 is connected to the input of the logical element AND-NE 11, which is connected to the serial circuit of the logical element AND 12, the logical element AND 13, the pulse counter 14 and the driver pulses 15. Pulse counter 14 is connected to logic gates And 16 and 17, which are connected respectively to triggers 18 and 19. To the other inputs of logic gates And 16 and 17, the trigger outputs 20 are connected. Fixed contacts of the monitored device 21, 22, 23 and 24 connected to the respective terminals. The operation of the device and the tolerance control of the non-simultaneity of switching contacts using it will be considered in relation to the process of switching contacts when moving a moving system of electrical devices from an open to a closed state. During movement under the action of a synchronous electric drive 1 at the moment of pressing the strain gage sensor 2, the traverse of the moving electric contacts at the FP point (Fig. 2), a jump occurs, which goes to the input of the pulse generator 6 and starts it. At its output, voltage pulses Ug of a certain frequency appear. Up to the moment of opening one of the closed contacts 21 or 22 at the output of the logical element AND-NOT 8, O is fixed, and at the output of the logical element AND-NOT AND - 1 and the signal at the output of the logical element 12 is absent. At the moment when one of the contacts opens, for example 21, signal 1 appears at the output of the NAND gate 8. Until contact 22 is open at both inputs of the AND 12 gate. there are two 1 and at its output a 1 is formed (nmpsuc in fig. 2 Uia). The duration of this pulse is determined by the non-simultaneity of the opening of contacts 21 and 22. This pulse (1) is fed simultaneously to the input of the trigger 20, to the input of the driver 15 and to the second input of the logic element 13, which allows the passage of pulses from the pulse generator 6 to the counter 14 | and the shooter starts counting the pulses. The capacity of the counter is chosen such that the filling time does not exceed it for a given movement speed V, the permissible switching time non-simultaneity time At.Dr 04 T where e is the switching non-simultaneity tolerance, mm. If the counter does not overflow at the moment when the contact 22 opens, then its state does not change, the state of the AND 16 and 17 logic elements and the flip-flops 18 and 19 also does not change, which corresponds to the permissible non-simultaneous opening (closing) of the contacts. At the moment of opening the contact 22, the pulse and, 2 disappears and on its front decay, the driver 15 generates a pulse of resetting the counter to its initial state, preparing it for counting the pulses, controlling. non-simultaneous switching of contacts 23 and 24. In case non-simultaneity of opening (closing) of contacts of the same bridge exceeds the permissible value, counter 14 overflows and signal 1 appears at its output (U 16, 17), which destroys the second the inputs of the logic elements AND 16 or 17, the latter with their output signals change the state of the flip-flops 18 or 19, and they give out information that the switching is not mixed more than the norm. The use of the invention provides for the tolerance control of non-simultaneity switching of contacts, which is one of the important parameters characterizing the switching capacity of contact systems, and improves the quality and reliability of electrical devices produced. Invention The device for controlling non-simultaneity switching of electric contacts containing a synchronous electric drive strain gauge force sensor having a kinematic connection with a synchronous electric drive and the electrical system of the monitored electrical apparatus, the electrical input of the strain gauge force sensor is connected to the power supply unit, and the output is connected to the input of the measuring DC amplifier connected to the recording device, and the terminals for connecting the moving and fixed contacts of the monitored electrical apparatus, characterized by the purpose of expanding the functional capabilities due to the provision of tolerance control of non-simultaneity switching of electrical contacts, two liters are introduced into it AND-NOT, four AND logic gates, two NOT logic gates, a pulse generator, a pulse counter, a wolver generator, three flip-flops and resistors, the inputs of the first AND-NE logic gates are connected directly to interconnected pins to connect fixed controlled contacts the electrical apparatus, and the inputs of the second logical element NAND through the logical elements NOT, leads for connecting the fixed contacts of the monitored electrical apparatus through resistors connected to the power supply, and terminals for connecting movable bridge contacts are connected to a common power bus, the outputs of the first and second logic elements AND –NAY are connected to the inputs of the first logic element AND, the output of this element is connected to the inputs of the first trigger, pulse generator and to one from the inputs of the second logic element I, the output of the pulse generator is connected to another input of the second logic element I, and the input of the pulse generator is connected to the output of the measuring DC amplifier, the output to The logic element I is connected to the counting input of the pulse counter, which establishes the input of the pulse counter connected to the output of the pulse former, and the output of the pulse counter is connected to one input of the third and fourth logic elements AND, the other inputs of these logical elements AND connected to the output of the first trigger, and the outputs of the third and fourth logical elements And are connected to the inputs of the second and third triggers. Sources of information taken into account in the examination 1.GOST 2933-74 Low-voltage devices. 2. Authors certificate of the USSR M 638920, cl. G 05 B 23/02, 1978. 3. USSR author's certificate number 742880, cl. G 05 B 23/02, 1980 (prototype). dbfO / f BUT /} PY