RU23348U1 - SWITCH PROTECTION DEVICE FOR CURRENT OVERCURRENT - Google Patents

Abstract

A device for protecting the switch from overcurrent, comprising a switch whose input is connected to a terminal for connecting a power source, the second terminal is connected via a thermal relay to a load, characterized in that a triac is introduced, the input of which is connected to the switch input, and the triac output is connected to the load, a control electrode is connected to the first output of the switch through a limiting resistor and a diode.

Description

CURRENT PROTECTION DEVICE FOR CURRENT OVERCURRENT

The utility model relates to electrical engineering and can be used in household appliances to protect switches from the passage of high currents, for example, heat guns, hair dryers, electric grinders.

A device is known, taken for a prototype, containing a switch, the input of which is connected to a terminal for connecting a power source. The second terminal is connected to the load via a thermal relay. The first output of the switch is connected to the load, the second output of the switch is connected to the load through a diode.

The disadvantage of this device is its low reliability due to the flow of high currents through the switch contacts, especially when high power heating elements are used as a load.

The purpose of the proposed utility model is to protect the switch from the flow of large load currents.

This goal is achieved by the fact that the device contains a switch, the input of which is connected to the terminal for connecting the power source, the second terminal is connected through the thermistor to the load. A triac, the input of which is connected to the input of the switch, the output is connected to the load, and the control electrode is connected to the first output of the switch through the limiting resistor, and with the second output through the limiting resistor and diode.

The figure shows the protection device of the switch,% of overcurrent. v.

The device comprises a switch I, input 2 of which is connected to a pin for connecting a power source. The second terminal is connected to the load 3 through the thermal relay 4. Triac 5, the input of which is connected to the input 2 of the switch I. The output of the triac is connected to the load 3. The control electrode of the simistor is connected to the first output b of the switch I through the limiting resistor 7, and the second output 8 of the switch is connected with the control electrode of the triac through the terminating resistor 7 and diode 9.

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Sources of information

Heat gun MER.681954.004 TU

Wiring diagram A & / IEP.68I954.004 EZ The overcurrent protection device of the switch operates as follows: When connecting the power supply to the terminal block for connection, if the voltage switch i is in the zero position, sshlistor 5 is closed, as current does not flow through the control electrode and, therefore, there is no voltage on the load. When the switch is in position I, voltage is supplied to the control electrode of the si-mistor 5 through the diode 9 and the limiting resistor 7. The voltage on the control electrode is cm; the mistor is equal to i /. The simistor5 partially opens and half of the power supply voltage is applied to load 3. The magnitude of the voltage across the load depends on the magnitude of the voltage drop across the siglistor, which depends on the current flowing through the control electrode of the triac 5. The magnitude of the current depends on the resistance value of the limiting resistor 7. When the switch i is in position Zh, the mains voltage is applied to the control electrode of the triac 5 through the limiting resistor 7. The voltage drop across the strip 5 is insignificant, and the mains voltage is almost completely applied to the load 3. When using the device in hair dryers and heat x pistols, when the temperature exceeds the permissible limit, thermal relay 4 is activated, a normally closed contact opens and the load is de-energized. After reducing the temperature to normal, the contact of the thermal relay closes and the load is turned on under the voltage of the power source. Thus, by introducing the si1 transistor jT, the main load current flows through it, and a significantly lower current flows through the switch contacts. This increases the reliability of the switch, allows you to control low currents when large currents flow in the load. The device has been tested and documentation is being prepared for mass production.

Claims (1)

A device for protecting the switch from overcurrent, comprising a switch whose input is connected to a terminal for connecting a power source, the second terminal is connected via a thermal relay to a load, characterized in that a triac is introduced, the input of which is connected to the switch input, and the triac output is connected to the load, a control electrode is connected to the first output of the switch through a limiting resistor and a diode.