RU2079919C1 - Starters and relays insulation strength test stand - Google Patents

Abstract

FIELD: production equipment for checks and tests of starters, relays, etc in mass and full-scale production. SUBSTANCE: the test stand uses two connecting devices with readiness-to-operation transmitters and busbars connecting the test stand busbar to the circuits of the apparatus under test, switch with one input and two output lines, RS flip-flops, OR NOT gates, OR gates, exclusive OR circuits, one-shot multivibrators. EFFECT: enhanced capacity of test stand and enhanced utilization factor. 1 dwg

Description

 The invention relates to the field of electrical apparatuses and can be used in technological equipment for checks and tests in mass and mass production of starters, relays, etc.

 The normative documentation for starters and relays provides for the possibility of acceptance tests using a manual measuring tool, universal installations and stands for receiving test influences and devices for measuring voltages, currents, gaps, linear movements, etc. The use of universal tools and installations does not allow the necessary labor productivity during the output control in the mass and serial production of low-voltage devices. At the NVA manufacturing plants, for the acceptance tests, specialized specialized installations and stands are often used, often automated.

A known device for automated checks and tests of electrical devices during the output control contains a connection block of the tested device and a test or measuring unit [1]
It allows you to automatically check the adjustment parameters of the contact system of the tested device: dips and contact clearances.

 The disadvantage of the analogue is its low productivity due to the fact that during testing, significant time is spent on auxiliary technological operations for installing, connecting, disconnecting and replacing the tested device. This reduces not only the performance of the test bench, but also the utilization rate of the test equipment.

 The closest in technical essence to the claimed invention is an automatic stand for monitoring electrical devices [2] which is selected as a prototype.

 The known device contains several connecting devices and several individual for each parameter controlled by the stand, test units. Connecting devices are used to place the tested devices and connect their findings to the test blocks, which provide the issuance of test effects and control the state of the tested devices during the tests. Each connecting device is equipped with a readiness sensor for operation, which is connected to the start input of the test unit.

 During operation of the test bench, connecting devices with the tested devices are moved between the test blocks by means of a ring discretely rotating transport device.

 During table stand-up, connecting devices provide the connection of the tested devices to their test units to perform checks. One of the positions of the transport device is loading and unloading, where the tested devices are replaced in the next connection of the device. The test blocks have, in addition to the start inputs, the outputs of the end of the test.

 The disadvantages of the prototype stand are the inefficient use of test equipment and its cost increase due to the need for universalization of nodes.

 In the prototype booth, the ratio of the stand time of the table at the positions of the verification operations and the travel time is 5/6 and 2 1/6. Even with uniform loading of test blocks, i.e. equal time for all checks performed at the stand, there will be a loss of time for the movement of connecting devices. In practice, however, the duration of various inspections of control devices varies significantly. For example, checking the parameters of the contact system of the starter of dips, gaps, etc., is carried out within a dozen or more seconds, and checking the electrical strength of its insulation for 3-4 seconds in accordance with the technical conditions, by applying a test voltage between galvanically isolated circuits of the test apparatus for 1 sec This means that the test unit to check the dielectric strength of the insulation will be used inefficiently and stand idle for a significantly longer fraction of the time than the stand time of the table at the working positions of the stand. The utilization rate of the test unit of one of the main and most expensive parts of the test bench is reduced.

 In conditions of smoothly running, stable production, selective control of the parameters of the contact system may be allowed, and verification of the electrical strength of the insulation is a safety parameter and in relation to it the monitoring should be continuous, high performance of the stand is necessary when performing the test. In this case, there is no need to organize conveyor output control and it is better to parallelize the checks.

 The second disadvantage of the prototype stand is the need for universalization, and hence the cost of connecting devices. The connecting devices must be designed for the technology features of all checks, and at the same time, they must comply with the safety requirements with respect to the operating voltages used in the stand. To test the dielectric strength of the starter insulation for an operating voltage of 660 V, the test voltage must be 2500 V at a frequency of 50 Hz. For this operating test voltage for the starter, all connecting devices of the stand must be designed, i.e. increased requirements for their isolation, the implementation of which requires additional costs.

 Productivity, utilization and price are essential for the cost-effectiveness of equipment. A test bench designed for acceptance tests during continuous control in large-scale or mass production, which, as a rule, is the production of starters and relays, should have the highest possible performance so that the output control does not become a production bottleneck.

 The technical result of the invention is to increase the productivity and utilization of the test bench for checking the electrical strength of the insulation of starters and relays.

 The technical result is achieved by the fact that in the test bench for checking the electrical strength of the insulation of the starters and relays, containing a test unit with a multi-wire bus that provides connection to the test unit circuits of the test apparatus, the output of the end of the test and the start input, two connecting devices with readiness sensors for operation and with buses connecting the bus of the test unit to the circuits of the device under test, an additional commutator with input and two output buses corresponding to us a connecting device and a test block, as well as two control inputs that provide connection to the input bus of the first or second output bus when a control signal is supplied as a logical zero to the first or second control inputs, respectively, four RS flip-flop, four logic circuits OR NOT, two logical circuits OR, one logical circuit EXCLUSIVE OR, two one-shot, the first connecting device connected to the first output bus of the switch, and the second connecting device to the second output the bus of the test block, and the first and second control inputs of the switch are connected to the direct outputs of the third and fourth RS flip-flops, respectively, the first and second inputs of the logic circuit are EXCLUSIVE OR, respectively, and its output is connected to the start of the test block to the direct outputs of the third and fourth RS flip-flops , the first inputs of the third and fourth OR-NOT circuits are connected to the output of the end of the test block verification, the second inputs of which are connected to the direct outputs of the third and fourth RS triggers, respectively The outputs of the third and fourth circuits are NOT connected to the first inputs of the first and second circuits OR, respectively, the second inputs of the first and second circuits OR are connected to the ready outputs of the first and second connecting devices, respectively, the inputs of the first and second single vibrators are connected to the same outputs of the first and the second connecting devices, respectively, the installation inputs of the first and third RS triggers are connected to the outputs of the first OR circuit, and the installation inputs of the second and fourth RS triggers are connected to the outputs of the second OR circuit, the reset inputs of the first and second RS triggers are connected to the outputs of the first and second one-shots, respectively, the reset inputs of the third and fourth RS triggers are connected to the outputs of the first and second OR-NOT circuits, respectively, the first inputs of the first and second OR-NOT circuits, and, respectively, are connected to the direct outputs of the first and second RS triggers, the second input of the first OR-NOT circuit is connected to the inverse output of the fourth RS-trigger, the second input of the second OR-NOT circuit is connected to the inverse output of the third RS trigger.

 The increase in productivity and utilization of the inventive test bench is achieved due to the fact that during testing of the test device in one of the connecting devices, the test device is replaced and prepared in the second connecting device, and after the test of the tested device in the first connecting device is completed, the test starts automatically device under test in a second connecting device, etc.

 The drawing shows a block diagram of the proposed device.

 The stand for checking the electrical strength of the insulation of starters and relays contains: test block 1 with a multi-wire bus that provides connection to the test block of the circuits of the device under test, output of the end of the test and start input: two connecting devices 2 and 3 with readiness sensors for operation and with a bus connecting the bus test block 1 to the circuits of the test apparatus; a switch 4 with an input and with two output buses, the corresponding buses of the connecting device and the test unit, as well as two control inputs that provide connection to the input bus of the first or second output bus when a control signal is supplied as a logical zero to the first or second control inputs, respectively; four RS triggers 5, 6, 7, 8; four logical circuits OR NOT 9, 10, 11, 12; two logic circuits OR 13, 14; one logic circuit EXCLUSIVE OR 15, two one-shot 16, 17.

 In the stand for checking the electrical strength of the insulation of starters and relays, the first connecting device 2 is connected to the first output bus of the switch 4, and the second connecting device 3 is connected to the second output bus of the switch 4; the input bus of the switch 4 is connected to the bus of the test unit 1, and the first and second control inputs of the switch 4 are connected to the direct outputs of the third 7 and fourth 8 RS triggers, respectively; the first and second inputs of the EXCLUSIVE OR 15 logic circuit are also connected to the direct outputs of the third 7 and fourth 8 RS triggers, respectively, and its output is to the start input of the test block 12; to the output of the end of the test block 1 verification, the first inputs of the third 11 and fourth 12 OR-NOT circuits are connected, the second inputs of which are connected to the direct outputs of the third 7 and fourth 8 RS triggers, respectively; the outputs of the third 11 and fourth 12 circuits OR are NOT connected to the first inputs of the first 13 and second 14 circuits OR, respectively; the second inputs of the first 13 and second 14 circuits OR connected to the readiness outputs of the first 2 and second 3 connecting devices, respectively; the inputs of the first 16 and second 17 single vibrators are connected to the same outputs of the first 2 and second 3 connecting devices, respectively; the installation inputs of the first 5 and third 7 RS triggers are connected to the outputs of the first OR 13 circuit, and the installation inputs of the second 6 and fourth 8 RS triggers are connected to the outputs of the second OR 14 circuit; the reset inputs of the first 5 and second 6 RS triggers are connected to the outputs of the first 16 and second 17 single-vibrators, respectively; the reset inputs of the third 7 and fourth 8 RS triggers are connected to the outputs of the first 9 and second 10 circuits OR NOT, respectively; the first inputs of the first 9 and second 10 circuits OR are NOT connected respectively to the direct outputs of the first 5 and second 6 RS - triggers; the second input of the first circuit OR NOT 9 is connected to the inverse output of the fourth RS trigger 8; the second input of the second circuit OR NOT 10 is connected to the inverse output of the third RS trigger 7.

 In the initial state, test devices were not installed in the connecting devices of the stand. Single levels of logic signals at the outputs of the sensors of connecting devices 2 and 3 will cause the installation of single logic levels at the outputs of OR circuits 13 and 14, which will set the RS triggers 5, 6, 7 and 8 to the state of a logical unit on direct outputs and a logical zero on inverse outputs . At the outputs of single vibrators 16 and 17, there will be levels of logical zeros. Logical zero at the output of the circuit EXCLUSIVE OR 15 blocks the operation of the test block 1. At the output of the end of the test of the test block 1 at this time there will be a level of a logical unit that will cause the logic level to be set at the output of the logic circuits OR NOT 11, 12.

 When installed in one of the connecting devices of the tested device, for example, in the first 2, it converts the output of the first circuit OR 13, connected to the S inputs of flip-flops 5 and 6, to the state of logical zero with its logical zero output signal, the negative edge starts the single-shot 16, which By the pulse of a logical unit to the input R, the RS flip-flop 5 resets to the state of logical zero at the direct output and the logical unit at the inverse output, then through the OR-NOT 9 logic circuit since now, at its both inputs, logical zeros by a logical unit are reset by RS trigger 7 to the state of logical zero at the direct output and logical unit at the inverse output.

 A low signal level at the first control input of the switch 4 connects the input bus to the first connecting device 2. A high signal level from the output of the EXCLUSIVE OR 15 circuit starts the test unit 1 and checks the test device. Upon completion of the test of the test apparatus, the output "test completion" of test unit 1 will pass a signal in the form of a logic zero pulse, which will cause the appearance of a logical unit pulse at the output of the logic circuit OR NOT 11, then a logical unit at the output of the logic circuit OR 13, resulting in RS triggers 5 and 7 will return to the state of a logical unit on direct outputs and a logical zero on inverse outputs.

 If during testing the test apparatus in the first connecting device 2, install the test apparatus in the second connecting device 3, then the signal of the one-shot 17 will reset the RS trigger 6 to the state of logical zero at the direct output, the signal level at the inverted output of the RS-trigger 7 will prohibit the passage of the signal from the RS output of trigger 6 through the OR-NOT 10 logic circuit to the RS reset input of trigger 8 until the end of the device check in the connecting device 2.

 After checking the test apparatus installed in the first connecting device 2 and set the trigger RS 7 to a state with a logic zero on the inverse output, as shown above, the logic unit from the output of the OR-NOT 10 circuit will reset the RS trigger 8 to the logic zero state on the direct output and logical unit on the inverse output. A low signal level at the second control input of the switch 4 connects the bus of the test block 1 to the second connecting device 3, and a high signal level at the output of the circuit EXCLUSIVE OR 15 will restart the test block 1, testing of the test apparatus installed in the second connecting device 3 will begin.

 The device will work similarly when installing the test device in the first connecting device 2 during the test of the device in the second connecting device 3, etc.

 If it is said that after the test of the test device in one of the connecting devices, for example, in the first 2, the test device in the second connecting device 3 is not installed, then after the RS triggers 5 and 7 are returned to the state of a logical unit on direct outputs and a logical zero on the inverted outputs, the circuit will be in its initial state and will be ready to start testing in any of the connecting devices in which the next test device will be installed.

 This allows you to increase the performance of the stand for checking the electrical strength of the insulation of starters and relays, as well as the utilization rate of test equipment and thereby maximize the use of the stand.

Claims (1)

 A test stand for the insulation strength of starters and relays, containing a test unit with a multi-wire bus that connects the circuits of the device under test to the test unit, the output of the end of the test and the start input, two connecting devices with readiness sensors and with buses connecting the test unit bus to the circuits of the tested apparatus, characterized in that a switch with an input and two output buses corresponding to the buses of the connecting device and and of the torture unit, as well as two control inputs providing connection to the input bus of the first or second output bus when a control signal is supplied as a logical zero to the first or second control inputs, respectively, four RS-flip-flops, four logical OR-NOT circuits, two logical OR circuits, one logical circuit EXCLUSIVE OR, two one-shot, the first connecting device connected to the first output bus of the switch, and the second connecting device to the second output bus of the switch, input bus the switch is connected to the bus of the test unit, and the first and second control inputs of the switch are connected to the direct outputs of the third and fourth RS-triggers, respectively, the first and second inputs of the logic circuit are EXCLUSIVE OR, respectively, and its output is connected to the direct outputs of the third and fourth RS-triggers to the input of the start of the test block, to the output of the end of the test block are connected the first inputs of the third and fourth circuits OR NOT, the second inputs of which are connected to the direct outputs of the third and four of RS triggers, respectively, the outputs of the third and fourth circuits are OR NOT connected to the first inputs of the first and second circuits OR, respectively, the second inputs of the first and second circuits OR are connected to the ready outputs of the first and second connecting devices, respectively, the inputs of the first and second single vibrators are connected to to the same outputs of the first and second connecting devices, respectively, the installation inputs of the first and third RS-triggers are connected to the outputs of the first OR circuit, and the installation inputs of the second and fourth RS-triggers are connected to the outputs of the second OR circuit, the reset inputs of the first and second RS flip-flops are connected to the outputs of the first and second single vibrators, respectively, the reset inputs of the third and fourth RS flip-flops are connected to the outputs of the first and second circuits OR NOT, respectively, the first inputs of the first and second OR circuits - NOT respectively connected to the direct outputs of the first and second RS-triggers, the second input of the first circuit OR is NOT connected to the inverse output of the fourth RS-trigger, the second input of the second circuit is NOT connected to the inverse output of the third RS-trigger.