RU2012059C1 - Device for testing breaks in light-signal lamp circuit - Google Patents

Abstract

FIELD: transport means. SUBSTANCE: device has sealed-contact reed relay 3, the first and the second diodes 4 and 5, the first and the second current-setting resistors 6 and 7, AND gate 8. Sealed-contact reed relay 3 and inductance coil 2 applied onto the reed relay 3 form current transducer which is closed when current flows through lamp 13 being under testing. The first resistor 6 and the second diode 4, as well as the second resistor 7 and the second diode 5, have to be the formers of logic signals which enter logic inputs of AND gate 8. Independently on condition of lamp 13 being under testing (without taking into account if it is turn on or turn off), when there is a breakage in the circuit, logic "unit" signals enter both logic inputs of AND gate 8, that results to setting of logic "unit" signal in the output of AND gate 8, which then enters input of indicator 9 and turns in on. In the case, logic "unit" signal is available in the output terminal 12, that permits to connect the device to any automatized control equipment. EFFECT: improved functional reliability due to elimination of influence of operation mode and parameters of light-signal system lamps on parameters of the device units. 1 dwg

Description

 The invention relates to devices for monitoring the health of light-signaling equipment and can be used in vehicles with DC power sources.

 A control device for light-signal lamps comprising a power transformer is known, the first winding of which is connected to a power source through a regulating power element, between the terminals of the second winding are connected in series the primary windings of isolation transformers, the secondary windings of which are connected with light-signal lamps, a high-frequency signal generator and a current meter, moreover, the power transformer is made with three windings, the first output of the high-frequency signal generator through the third winding the power transformer is connected to the first output of the current meter, the second output of which is connected to the first output of the single-shot and connected via a key to the second output of the high-frequency signal generator, the primary winding of the current transformer is included in the communication gap of the primary windings of isolation transformers, the secondary winding of the current transformer is connected to the input of the unit synchronization, the output of which is connected to the input of a single vibrator, the second output of which is connected to the control input of the key.

 The disadvantage of this device is the presence of power and isolation transformers, which reduces reliability and increases the size and weight of the device.

 Closest to the invention in technical essence is a device for monitoring signal lamps, comprising a transformer, one end of the primary winding of which is connected to one terminal of the capacitor, the other end of the primary winding of the transformer and the other terminal of the capacitor are input terminals of the signal lamp, the terminals of the capacitor are terminals for connecting the power circuit a signal lamp, a generator, one terminal of which is connected to one terminal of the secondary winding of the transformer, and an indicator, another terminal of the generator ora and the other terminal of the secondary winding of the transformer is connected to the input of the rectifier, in parallel to which a resistor is included, the output of the rectifier via a filter connected to the input of the threshold element whose output is connected to the indicator.

 The known device provides constant control of the lamp regardless of its inclusion. However, it has several disadvantages, the most significant of which is the dependence of the capacitance of the capacitor on the resistances of the on and off lamp. Since most light-signal lamps have a significant variation in their resistance values, the known device must be adapted to each controlled lamp by selecting the required capacitance of the capacitor, which makes it inconvenient for practical use in systems with a large number of controlled light-signal lamps. In addition, the lamp resistance changes during its operation, which can lead to incorrect control results.

 The purpose of the invention is to increase the functional reliability of the device by eliminating the influence of the characteristics of the lamps of the light-signal system on the parameters of the elements of the device and the results of control.

 The goal is achieved by the fact that in the device for monitoring open circuits in the circuit of the signal lamps containing a voltage converter, the first input of which is connected to the first output of the power source and through a key to the first output of the inductor, the second output of which is the first input of the device, the second input of the voltage converter is connected to the second output of the power source and is the second input of the device, and the indicator, according to the invention, a reed switch, first and second diodes, first and second current-setting resistors and elec And, while the output of the voltage converter through the first current-sensing resistor is connected to the first logical input of the element And and the anode of the first diode, the cathode of which is connected to the second output of the inductor and the first input of the device, the output of the voltage converter through the second current-setting resistor is connected to the second input of the element And and the anode of the second diode, the cathode of which is connected to one output of the reed switch, the other output of which is connected to the second output of the power source and the second input of the device, the output of the element And nen with an indicator input and an output contact for interfacing the device with automated controls.

 Comparison of the claimed device with the prototype shows that the claimed device is different from the prototype and, therefore, meets the criterion of "novelty."

 When conducting a search for significant features similar to the distinguishing features of the claimed device, the patent and scientific literature were not found. Thus, the claimed device meets the criterion of "significant differences".

 The drawing shows a diagram of the device.

 A device for monitoring breaks in the circuit of light-signal lamps comprises a voltage converter 1, an inductor 2, a reed switch 3, first and second diodes 4 and 5, first and second current-setting resistors 6 and 7, element 8, indicator 9, consisting of a buffer element 10 and a signaling device 11, and an output contact 12 for interfacing the device with automated control means (not shown in the drawing). The diagram shows a controlled light signal lamp 13 connected to the inputs of the device, and its power circuit, consisting of a power source 14 and a key 15. The first input of the voltage converter 1 is connected to the first output of the power source 14 and through the key 15 to the first output of the inductor 2, the second output of which is the first input of the device. The second input of the voltage converter 1 is connected to the second output of the power supply 14 and is the second input of the device, and the output of the voltage converter 1 through the first current-sensing resistor 6 is connected to the first logical input of the element And 8 and the anode of the first diode 4, the cathode of which is connected to the second output of the coil 2 inductance and the first input of the device. The output of the voltage converter 1 through the second current-carrying resistor 7 is connected to the second input of the element And 8 and the anode of the second diode 5, the cathode of which is connected to one output of the reed switch 3. Another output of the reed switch is connected to the second output of the power source 14 and the second input of the device. The output of the element And 8 is connected to the input of the buffer element 10 and the output terminal 12, and the output of the buffer element 10 is connected to the input of the signaling device 11.

 The voltage converter 1 is an integrated voltage stabilizer (for example, the K142EN5A microcircuit) for supplying digital elements 8 and 10 and generating signals of various logical levels on the logical inputs of element And 8 depending on the state of the lamp being monitored 13. The inductor 2 and the reed switch 3 form a current sensor which closes when there is a rated current in the lamp power circuit. Current-setting resistors 6 and 7 and diodes 4 and 5 are shapers of logic level signals depending on the state of the lamp being monitored 13. Element And 8 is a two-input logic element, at the output of which an enable signal of logic "1" appears only if both its logical inputs are also present logical "1" signals. It is based on Schmitt triggers for the possibility of processing logical signals with gentle edges (for example, the K561TL1 chip). The buffer element 10, (for example, the chip K561PU4) is designed to coordinate the output signal of the element And 8 and the input signal of the signaling device 11. The signaling device 11 is designed to signal an open in the circuit of the controlled lamp 13 and is a light-emitting diode, for example, AL307BM. At the output contact 12 there is a TTL-level signal that allows you to pair the device with automated control systems for lighting equipment of vehicles and other means.

 The device operates as follows.

 When a working light-signal lamp 13 is connected to the power supply 14, a rated current flows through the coil 15 through the coil 2, which leads to the closure of the normally open reed switch 3. As a result, the current from the voltage converter 1 through the current-setting resistor 7, diode 5 and the contacts of the reed switch 3 flows to the second the output of the power source 14, forming a logical "0" signal at the second logical input of AND element 8. At the same time, the voltage of the power supply 14, which is higher than the output voltage of the voltage converter 1, is supplied to the cathode of the diode 4. Therefore, at the first logical input of the element And 8 there is a logical signal "1". In this case, the output of the element And 8 appears a logical signal "0". Therefore, the input of the signaling device 11 through the buffer element 10, as well as the output contact 12 receives a logical signal "0" and the signaling device 11 does not light up.

 When you turn off the key 15, the lamp 13 goes out. In this case, there is no current in coil 2, the reed switch 3 is open and a logical "1" signal is generated at the second logical input of AND 8. The diode 5 protects the second input of the element And 8 from possible impulse noise. In this case, the current from the voltage converter 1, passing through the current-setting resistor 6, diode 4 and the filament of the lamp 13, forms a logical "0" signal at the first logical input of element And 8. As a result, the output of the element And 8 also generates a signal of logical "0" and the signaling device 11 is not lit.

 If an open occurs in the circuit of the lamp 13, then regardless of the position of the key 15, there is no current in the coil 2, the reed switch 3 is broken and a logical "1" signal is generated at the second logical input of the And 8 element. In this case, the current through the current-sensing resistor 6 does not flow to the diode 4 and the lamp 13. Therefore, a logical "1" signal is also formed at the first logical input of the And 8 element. This leads to the establishment of the output of the element And 8 signal logical "1", which through the buffer element 10 is fed to the input of the signaling device 11, including it. At the same time, at the output terminal 12 there is a signal of the logical "1" TTL level.

 Thus, this device, like the prototype, carries out continuous monitoring of open circuits in the circuit of light-signal lamps regardless of their inclusion, however, the device’s operability does not depend on the spread of the parameters of the controlled lamps, which is absent in the prototype.

 The functional reliability of the device was improved by introducing current-setting resistors 6 and 7, the resistances of which are much greater than the possible resistances of the light-signal lamp 13, which excludes the influence of the lamp resistance on the device parameters.

 In addition, the possibility of pairing this device with automated control allows you to accumulate information about the reliability parameters of controlled light bulbs, and the current flowing through the resistor 6, diode 4 and the controlled lamp 13 heats up its filament when the lamp is off, thereby increasing the internal resistance of the lamp and reducing the current jump when it is turned on, which leads to an increase in the service life of the controlled lamp 13.

 Technical and economic effectiveness of the proposed device is as follows. Its functional reliability is increased, since the possibility of a spread in the resistance of the controlled lamp on the control result is excluded. It is possible to pair the device with automated control tools. Its dimensions and weight have been reduced, since there is no transformer in it, and most of the elements are made on the basis of integrated circuits.

Claims (1)

 DEVICE FOR MONITORING CIRCUITS IN THE LIGHT-LAMP LAMPS CIRCUIT, containing a voltage converter, the first input of which is connected to the first output of the power source and through the key to the first output of the inductor, the second output of which is the first input of the device, the second input of the voltage converter is connected to the second output of the power source and is the second input of the device, and an indicator, characterized in that, in order to increase functional reliability by eliminating the influence of operating modes and lamp characteristics light-signal system on the parameters of the elements of the device and the control results, a reed switch, first and second diodes, first and second current-setting resistors and element And are introduced into it, while the output of the voltage converter through the first current-setting resistor is connected to the first logical input of the element And and the anode of the first diode, the cathode of which is connected to the second output of the inductor and the first input of the device, the output of the voltage converter through the second resistor is connected to the second input of the element And and the anode of the second diode, the cathode to is connected to one terminal of the reed switch, the other terminal of which is connected to the second terminal of the power source and the second input of the device, the output of the element And is connected to the input of the indicator and the output contact.