Electrics are good as long as they work properly. Any electrical fault baffles most people on the planet. In this article we will look at how to determine a faulty circuit breaker and how to eliminate it.
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Circuit breaker and short circuit
I'll start from the beginning. Circuit breaker or intended for (cables and electrical wiring) premises from short circuit and overload. A short circuit leads to the instantaneous occurrence of overcurrents in the electrical network (currents that are orders of magnitude higher than operating currents).
Any overcurrent, and in residential circuits this is 1.8-12.6 kA, according to the laws of physics, leads to the release of colossal thermal energy. More than one household contact cannot withstand this energy, and at the point of the short circuit a flash or so-called electric arc occurs. If you do not quickly turn off the power supply to the emergency network, then there is a very high probability of a fire, and even worse, injury to a person due to short-circuit overcurrents.
To protect against short circuits, namely to instantly disconnect the emergency network, automatic circuit breakers (circuit breakers) are used. I note that the shutdown does not occur instantly, but during the time of safe contact. This is less than 0.1 sec.
Circuit breaker and overload
The second purpose of a circuit breaker is overload protection. There is a bimetallic plate (thermal release), the overheating of which disconnects the electrical circuit from the power supply. Overheating of the plate occurs when there is an overload in the network. It is clear that heating and, accordingly, switching off the circuit does not occur instantly, but after some time. Depending on the warm-up of the circuit breaker, this time can be less than a second or several tens of seconds.
Let's move on to apartment electrical faults.
Electrical circuit breaker malfunction
Your circuit breaker trips periodically. The probable reasons for this are as follows:
- Short circuit in the circuit;
- Network congestion;
- Damage to wires periodically leading to either a short circuit or overload.
First you need to diagnose the electrical network for overload and short circuit. If these faults are not detected, and the machine still turns off, then a malfunction of the circuit breaker itself is very likely.
Checking the circuit breaker
Do a basic check of the circuit breaker.
- Turn off the power;
- Turn off all circuit breakers;
- Click the circuit breaker charging lever. It should turn on and off with a characteristic “click” sound.
- If a click is not heard, the machine is faulty and requires replacement.
- If there is a click, use a measuring device to measure the resistance between the terminals of the circuit breaker. When "on" machine resistance should be close to zero. When "off" The resistance of the machine should be close to infinity.
However, even if the diagnostics of the machine showed that the machine is working, this does not mean that the setting (thermal release) of the circuit breaker is working.
Generally speaking, factory failure of circuit breakers is not that uncommon and is significant. What can we say about the malfunctions of the machines that arise during operation.
For example, the machine worked a couple of times and failed. Or it “survived” too much overcurrent and failed.
A malfunction of the circuit breaker itself cannot be ruled out as the main reason for its periodic shutdown.
Advice, change the circuit breaker for a new one, first do it again.
The matter is simple, and such a replacement can save you from major work to find other electrical faults in the apartment.
The operation of a circuit breaker, or, as people say, a machine, is a reaction of protective equipment to an emergency situation that has arisen in the electrical wiring.
It is imperative to find out and eliminate the reasons for the operation of the machine so that the electrical wiring can function in operating mode. If you do not take corrective action by trying to turn the circuit breaker back on after each trip, the problem will only get worse, leading to emergency situation, fire and accidents.
Fault detection algorithm
In order to prevent the development of a tragic situation, you need to properly respond to the protection being triggered and know the algorithm for identifying the cause of the automatic shutdown. It is necessary to clearly know the reasons why knocks out the machine gun in the dashboard to respond properly.
Without going into the electrical details of the processes at this stage, we can identify several main reasons for the protection to operate:
- There is a fault in the circuit breaker itself;
- Problems in the machine connection system;
- Instant network overload (short circuit);
- Network congestion that continues for a long time.
It is in this order that it is necessary to find out the reasons for frequent knocking out automatic machine without obvious signs of a short circuit (SC) or prolonged overload, consistently making sure that there are no factors prompting the reaction of the protection system.
A simple protection system in a regular apartment panel Possible network and equipment problems related to each item on the list will be described below. After making sure that there are no problems described above, you can move on to the next point.
Identifying a faulty machine
In case of frequent operation of the circuit breaker for no apparent reason, you need to start troubleshooting from the switchboard and the protection devices themselves. This test is the least labor-intensive, and problems are often identified at this stage.
A faulty circuit breaker can be detected without purchasing a new device and replacing it - it is enough to have circuit breakers connected to the panel with similar parameters.
Swap machines of equal power without changing the location of jumpers and wires If a certain machine often breaks, then to check it, you need to connect the group of users served by this device to an adjacent similar machine, and connect the freed wires from the line next door to this circuit breaker (swap the lines).
With this switching, a common cause of machine knockouts is automatically eliminated - loose contacts can become very hot, and the heat from them will be transferred to the bimetallic plate of the device, causing it to trigger falsely. By tightening the contact terminals, this cause of operation can be eliminated even without the knowledge of the technician. This nuance also needs to be kept in mind.
Poor contact not only causes false alarms, but can also completely damage the machine. Due to the curvature of the case, a mechanical defect in the machine is possible, and it can be triggered by vibration. When disconnecting the wires and reconnecting a defective circuit breaker, the mechanical tension in the body can be removed, which will cause confusion for the technician due to the spontaneous elimination of the problem.
Tightening the contacts may remove mechanical stress in the machine body If another, working machine operates on a switched group of users, you should look for the cause in the electrical wiring. If on a new line the same machine frequently operates in the same way, then it will definitely need to be replaced or repaired.
Replacing a faulty machine Reasons for machine wear
Despite the fact that circuit breakers are not dismountable by definition, folk craftsmen have learned to disassemble and repair them. Having drilled out the rivets using a drill, the machine body can be disassembled.
To disassemble the machine you will need a drill Burnt contacts have a higher contact resistance, as a result of which they overheat, and the heat transfers to the bimetallic plate, causing it to deform and turn off the current.
Disassembled circuit breaker Basic cleaning of burnt circuit breaker contacts can extend the life of the circuit breaker and prevent further false alarms. It must be remembered that contact burning occurs when the machine is turned on while all electrical appliances are connected to the network, that is, under load.
Burnt contacts increase the overall heating of the circuit breaker Therefore, after the machine is triggered, it is recommended to turn off all electrical appliances, give the switch time to cool, and then turn it on again. If you try to forcibly turn on a still hot circuit breaker under load, its contacts will very quickly fail, which will cause frequent operation of the protection.
Burnt contact of the bimetallic plate due to the forced activation of the machine Time-current characteristic of the machine
The function of the circuit breaker is electrical wiring protection from a short circuit accompanied by a high-temperature electric arc, and from prolonged overload, causing overheating of the wires, melting and burning of the insulation.
After checking the circuit breaker and the electrical installation in the panel, the reason for the frequent knocking out of the protection should be sought in the electrical wiring and connected equipment.
In the design of the circuit breaker, there are two elements that react to excess load in the electrical wiring.
Frames highlight elements that respond to excess current. Without going into details of the design and characteristics of circuit breakers, which can be found in more detail at, two conditions should be highlighted under which the circuit breaker trips:
You should also check the heating of nearby circuit breakers. The large heat generation from them can shift the time-current characteristic of a problematic machine, causing it to operate faster and with less current.
In itself, this heat generation from neighboring circuit breakers cannot cause frequent knockout of the protection, but it must be taken into account when performing a general analysis of the operation of the circuit breaker and checking the electrical wiring it protects.
Short circuit detection
A short circuit is the contact of a conductor under phase voltage with a surface in contact with the ground. This may be the neutral wire or the grounding conductor of the PE electrical wiring, or the housing of grounded equipment.
A short circuit between the phase and neutral wires can also occur in the connected equipment itself.
Despite the fact that, as a rule, many household appliances have built-in fuses, they do not have time to operate quickly enough, and there will be enough time for the resulting electromagnetic pulse to affect the circuit breaker latch.
Short circuit on the electronic device board Very often, a short circuit occurs when an electrical appliance is connected to the network. If at the same time, without delay, the circuit breaker trips, then we can judge with great confidence that there is a short circuit in the connected equipment.
Often the machine knocks out after turning on the incandescent light bulb - at this moment a characteristic sound is heard emanating from the lamp. Sometimes this happens due to the occurrence of an electric arc in the bulb. The electrical characteristics of the arc are close to a short circuit, so the machine reacts in almost the same short time of a few tens of milliseconds.
Photo of a light bulb exploding due to an arc between the electrodes It is not always possible for a short circuit to occur when the equipment is turned on. A short circuit can occur due to the fault of rodents or other animals that damage the insulation of the wires.
Damage to the cable insulation, which may cause a short circuit Content:
The main function of a circuit breaker is to protect the network from overloads and short circuits. Situations often arise when the owners of apartments and private houses have to solve the problem of why the machine in the control panel is knocked out and establish the reasons for such operations. Usually the whole matter is limited to replacing the machine with a higher denomination. However, such actions do not effectively resolve the issue, since the operation will occur even with an increased load on the wiring. As a result, home network lines may burn out and fail. To take the most effective measures, you need to know the reasons that trigger the machine in each specific case.
The machine knocks out in the apartment reasons
The most common reason for the machine to trip is considered to be its performance of its main function - protecting electrical wiring from overloads. Each model has its own release, ranging from 6 amps and above. When several powerful devices are turned on simultaneously, the current setting is exceeded and the protective device. Most often, overload is caused by a washing machine, water heater and other household appliances.
This problem can be solved different ways. First of all, you should not allow powerful equipment to be turned on at the same time. If there is high-quality wiring with copper conductors and a cross-section of at least 2.5 mm2, it is possible to install a more powerful machine.
In some cases, when the machine knocks out, the reasons may be related to a faulty household appliances. Therefore, the machine begins to knock out when it is turned on at the same time. In case of serious damage bad influence Even appliances such as a kettle or computer can provide assistance. To check this fact, you should turn off all devices one by one and see how the circuit breaker behaves. If it works normally, then the reason lies in one of the household devices, which will trigger when turned on.
A fairly common cause is a wiring short circuit. At some point the phase comes into contact with zero and the machine performs a second function - it protects against short circuits by triggering.
You can determine why the machine knocks out in a simple way. All devices must be turned off, and if the machine still works, then the wiring is faulty. It is recommended to start checking with sockets and switches, after which distribution boxes and lamps are checked, and at the very end the wires are checked. Usually the presence of a short circuit is determined using. However, in particularly difficult cases, it is recommended that one capable of accurately and quickly detecting a fault.
Sometimes unplanned operations occur due to the poor quality of the machine itself. The malfunction can be identified by replacing the device with a new device. In most cases, this allows you to effectively solve this problem.
When you turn on the lights the machine goes off
Quite often, at the moment the light is turned on, the input switch is knocked out, and the entire electrical network turns out to be de-energized. This malfunction can occur for various reasons, and the most important of them is a malfunction in the connection of the chandelier, which uses conventional incandescent light bulbs with an E27 base. To identify a possible malfunction, you need to unscrew the lamps and inspect their bases for short circuits.
At the connection point of the chandelier, a contact burns out, which causes a short circuit and activation of the protective device. Sometimes it's all about the 12-volt transformer included in the design of the chandelier.
In some cases, the circuit breaker in the panel trips when the light bulb burns out. The machine knocks out under the influence of a short-term overload. With a low rating of 6-10 amperes, the likelihood of unplanned operation is high. Fluorescent and LED lamps are completely devoid of this effect.
The machine in the dashboard constantly knocks out
Quite often, owners of private country houses and apartments are wondering why the machine in the control panel knocks out without a load, in the absence of visible reasons. In addition to the factors already discussed, a similar situation often arises due to overloads in the electrical outlet network.
When drawing up a project and installing electrical wiring, it is impossible to determine with absolute accuracy the degree of load on each group of sockets. Usually there is a separate circuit breaker for 3-4 sockets. However, if there is a powerful protective device, the rated current of the connected sockets can be significantly lower.
In such a situation, an overload will certainly occur, especially if an iron, stove, microwave and other powerful equipment are simultaneously connected to the same group of outlets. As a result, the circuit breaker inevitably trips. It is possible to eliminate such cases by evenly distributing the powerful load between several outlet groups. If this is not possible, you should not connect several high-power consumers to the electrical network at once.
Sometimes it happens that the machine is knocked out and does not turn back on. Here the reason may be the thermal release, which gets very hot. To turn the device back on, just let it cool down and it will work normally again. The machine is often triggered by a faulty device that consumes increased current. As a result, the network is overloaded and the circuit breaker is knocked out. The solution to the problem, as already noted, is to turn on the devices one by one until the faulty one is discovered among them.
It happens that the machine itself is not connected correctly. Wires that are loosely tightened in the terminals lead to heating of this place and the activation of the thermal release. The reason is visible to the naked eye when not only the wire insulation becomes burnt, but also the body of the device.
In any house with electrical wiring, there is a circuit breaker (circuit breaker) on the distribution board. This device is designed to automatically de-energize the network. In order to understand why the machine in the dashboard knocks out and what to do, it is necessary to determine the causes of this phenomenon.
Main reasons
If connecting a device to an outlet group will result in exceeding the total power, it should be connected to another circuit
The circuit breaker in the switchboard may operate due to the following reasons:
- connecting too much load;
- short circuit;
- malfunction of the machine itself.
When a large number of electrical appliances are connected to the network, a current may arise in the circuit, the value of which exceeds the permissible value for this circuit.
This can happen when a kettle, washing machine, electric stove and other appliances are turned on at the same time. In this case, the machine is triggered and turns off the network. In modern machines, a thermal release reacts to excess current.
In the event of a short circuit, a sharp increase in current occurs. Then the electromagnetic release of the machine is triggered. At the same time, the core is drawn into the coil and opens the contacts through levers. The response time of this release does not exceed 0.02 s.
In some cases, the culprit for the shutdown may be a malfunction of the machine itself, which is a rather complex design.
Possible consequences
Short circuit is the most common cause of fires in apartments and houses
The consequences of a sudden network shutdown when the machine is triggered, in the worst case, may be interruptions in computer game or in the operation of the washing machine. Much more serious consequences can arise if the machine does not work. For example, if it fails due to a short circuit, a fire may occur, which often leads to a fire.
What to do
If you have apartment board There are still traffic jams, then we should put an end to this once and for all by installing high-quality circuit breakers
In the event of a network outage, it is first advisable to figure out why the machine in the panel is knocked out. To do this, you can use the following algorithm:
- Determine the total power of all connected electrical appliances.
- Divide the total power by the voltage of 220 V and determine the total current consumption (Ip).
- Compare the current consumption with the rated current (In) of the machine.
- If Iп > Iн, then it is necessary to reduce the number of switched-on devices so that Iп< Iн.
If the malfunction is associated with a short circuit, then you must first check each of the connected devices. This can be done, for example, by turning them off one by one. If it turns out that when all electrical appliances are turned off, a short circuit remains in the circuit, then you should check the electrical wiring itself, including its elements such as switches or sockets.
If it turns out that the machine turns off on its own, regardless of the presence of faults in the circuit, then it should be replaced with a working one.
Since, for safety reasons, such a device must be replaced when the voltage supplied to the panel is turned off, it is better to entrust this replacement to an electrician.
In most cases, the operation of the circuit breaker in the panel is its normal job, and the fact that it does it is very good, as it should be, but provided that the circuit breaker itself is working properly. To check the operation of the electrical network in an apartment or house, it is better to invite a specialist.
Automatic switches (CBs) are mandatory devices for any home electrical network to ensure the safety of its operation. Almost everywhere they have replaced the previously so common fuses - the so-called plugs. This is understandable: automatic machines (as they are usually called in colloquial speech) are much more convenient to use, more compact, and in terms of reliability of protection they are still much higher.
But sometimes it happens that the circuit breaker, with some stubborn constancy, and, in the opinion of the owner of the apartment or house, for no apparent reason, refuses to work in the on position. That is, he is said to be regularly knocked out. Often this leads the owner to the idea of the need to replace the switch, and also with an increase in the operating current rating. Stop! This is a fundamentally wrong and even extremely dangerous decision! First, you need to figure out the reason, find out why the machine knocks out. It just doesn't happen that way. Yes, there is a small probability that the AV itself is faulty, but most often this is a signal of serious problems in the electrical wiring or in the devices connected to it. That is, the machine, in fact, fully performs its task. And by turning it off, it seems to remind the owner - “Deal with the reason!”
Main functions of a circuit breaker, its basic structure and operating principle
This publication is certainly not intended for professional electricians. Its goal is to show the most ordinary person the possible reasons for the operation of a circuit breaker and “equip” him with the necessary knowledge to identify and eliminate shortcomings. Therefore, it would be useful to first briefly familiarize yourself with the design of the machine - it will be easier to understand how it works and why it can be knocked out.
So, the vast majority of modern circuit breakers intended for installation in household networks are compact, modular devices for mounting on a DIN rail. The entire device is housed in a plastic case with a characteristic rectangular shape. On the front side of the machine there is a switch lever, and there is a marking with the main operational characteristics of the device. On the back side there is a special groove and a latch for mounting on a rail.
At the top and bottom there are screw terminals for connecting wires when installed in a home wiring diagram. The number of pairs of contacts may vary - from one to four. Accordingly, according to this criterion, the switches themselves are divided into one-, two-, three- or four-pole. In a household single-phase 220 volt network, two-pole ones are more often used - at the common input, and single-pole ones - on separate lines. Devices with three or four pairs of contacts are usually designed to operate on a three-phase 380 V network.
The dimensions of the machine are strictly standardized, and depending on the number of poles, it can occupy from one to four module spaces on the DIN rail of the distribution board (cabinet).
What is the purpose of a circuit breaker?
- One of its functions is quite obvious - it can work as a regular switch. That is, if necessary, depending on the installation location in general scheme, the owner has the opportunity to turn off either the entire home (apartment) electrical network or a separate section of it. This is often required to carry out preventive, repair, electrical installation work. The function is certainly important, but still does not determine the essence of the operation of this device.
- The second task, and already a safety plan, is to protect the home network (or a certain section of it) from reboot. Alas, many consumers of electricity do not think at all about the fact that any conductor has a certain limit on the current it carries. And the picture when several quite powerful ones are switched on at once through a whole “cascade” of extension cords and tees to one socket electrical appliances, can be seen quite often.
Too much current in the wiring causes it to heat up, which leads to the appearance and fire of insulation, plastic housings of sockets or connected devices. And this is one of the common causes of fires.
A correctly sized circuit breaker is designed to prevent this situation. If the maximum load current in the line is exceeded, after some time it will de-energize.
- The third task is to instantly open the circuit in the event of a short circuit in the network. Deterioration, insufficiency or previous melting of insulation, violation of electrical installation rules in distribution boards and boxes or on sockets, problems with connected electrical appliances - all this can lead to the fact that the phase wire closes to zero without load.
The danger of a short circuit is difficult to exaggerate. The current in a closed circuit reaches values of several thousand amperes, which, naturally, no wiring can withstand. That is, if the circuit is not immediately interrupted, large-scale melting and fires of wiring and devices are possible. And this is an almost guaranteed fire with very disastrous consequences.
This means that the task of the machine is to respond to a short circuit by breaking the circuit in the shortest possible time, measured in milliseconds, in order to prevent a large-scale accident.
The design of the circuit breaker is precisely designed to perform all these three tasks. Let's take a look at its design and how it works in emergency situations.
So, at the top and bottom of the circuit breaker there are screw terminals (item 1) for connecting the incoming and outgoing wires towards the load. In the illustration, just for the sake of compactness, the device is shown horizontally. In fact, the side on the right in the picture will be facing up. And most often it is to this terminal that the supply wire is connected.
The input terminal is connected to a fixed power contact (item 2). A movable power contact (item 3) works in tandem with it. It is the closing and opening of this pair that provides either switching or breaking the circuit. That is, the illustration shows that in this case the machine is in the off position - the contacts are open.
Internal switching in the switch, in addition to current-carrying metal parts, is carried out using powerful flexible conductors (item 4).
On the front side of the machine there is a switch lever (position 5). Most often, its lower position corresponds to turning off the device, and its upper position corresponds to turning on the device.
The lever is mechanically connected to a special mechanism, which is a combination of levers, springs and stoppers (item 6). When the lever is moved to the upper position, this mechanism ensures the closure of the movable power contact with the stationary one. And this contact is in a spring-loaded state, that is, when the stopper is acted upon under the action of the spring, the contacts will automatically open.
But this stopper, which keeps the contacts closed, can be influenced in three different ways. Firstly, simply by moving the lever to the lower position, that is, when manually turning off the machine. And secondly, the shutdown can be triggered by any of the two releases located inside - thermal or electromagnetic.
The electromagnetic release (position 7) ensures that the machine operates in the event of a short circuit. It is a coil whose turns are part of the total flow of current through the switch. The device is made according to the solenoid principle, that is, a spring-loaded metal core is placed inside the coil, which is mechanically connected to a movable power contact.
When a current normal for the electrical network flows through the coil, the generated electromagnetic flux is insufficient to overcome the spring force and retract the core. But if a short circuit occurs in the network, then the strength of the passing current instantly increases hundreds of times. Accordingly, this is accompanied by an instant increase in the magnetic flux created by the coil. The solenoid core is sharply retracted, which leads to the breaking of the lever mechanism from the stopper and, under the action of a spring, the moving contact being thrown away from the stationary one. It takes longer to write and read, but in reality, in a split second the chain breaks.
True, they usually try not to reach hundreds and thousands of amperes - the operation of an electromagnetic instantaneous release is usually calculated for a certain excess of the passing current relative to the specified rating. Based on these indicators, circuit breakers are divided into classes according to the so-called time-current characteristic, designated by Latin letters. The following classes can be used in a home network:
- B – operation when the rated current is exceeded by 3÷5 times;
- C – 5÷10 times;
- D – 10÷12 times.
The response time, depending on the size of the current excess, is determined by special graphs.
Typically, class B is used to protect specific leased lines. Several lines can be combined and protected in a panel by a class C machine. Class D is more suitable for powerful equipment with electric motors. In domestic conditions they are rarely used.
This distribution of machines by class and recommended installation location, by the way, also provides the necessary selectivity. That is, for example, in the event of a malfunction on a particular line, only its circuit breaker can operate, while the more “senior” one will remain in the on position, ensuring the normal operation of the remaining sections. It is clear that this greatly simplifies troubleshooting in the event of frequent protection activation.
The thermal release (pos. 8) is designed to ensure automatic shutdown when the permissible load current is exceeded. It is a bimetallic plate, which is part of the general circuit of the current passing through the machine. If the current is within the specified rating, the plate is motionless. But when an excessively large load is connected to the circuit, resistive heating of this plate begins due to an increase in current. Due to its bimetallic structure, it begins to bend when heated. And at a certain moment, the latch holding the lever mechanism in the on position will move out of place. And again, under the action of the spring, the fixed and movable power contacts will open.
True, here the operation does not occur instantly, but with a certain delay. That is, if the current excess is observed for a certain time. When assembling circuit breakers, they undergo calibration - for this there is a special adjusting screw (item 9). But after assembly, this screw becomes inaccessible, and the user will not be able to reset the factory setting.
Such a delay is necessary, if only because, when starting up many devices, very significant current surges are observed, which then returns to the nominal value. This is especially true for appliances and household appliances equipped with electric drives - power tools, refrigerators, pumps and more. And so that the machine does not react by turning off every short-term start, this possibility is provided.
Breaking the contact at high current values is usually accompanied by the occurrence of an electric arc. To prevent it from causing damage to the machine, it is equipped with a special arc extinguishing device (item 10). This is a separate chamber with a row of parallel metal plates installed in it. The arc breaks against them, loses its strength and becomes unable, for example, to melt the body or other internal parts of the switch. The gases formed during arc combustion are discharged through a specially provided window (item 11).
Finally, on the back side of the machine there is a shaped groove for installation on a DIN rail, and a movable latch that provides reliable fastening on it (pos. 12).
We hope the reader has clarity about the circuit breaker design. We can move on to consider the reasons for its frequent operation.
Why might a circuit breaker trip?
First of all, you should not perceive the operation of the machine as some kind of “tragedy”. If only because it was reassigned for this purpose. And in most cases, by turning off this device, it saves the home electrical network and the devices connected to it from large-scale accidents, which can result in very serious consequences.
The next thing is that troubleshooting will be much easier if your home network is properly organized. We are talking about the so-called selectivity of installation of automatic machines. That is, all internal wiring should ideally be divided into separate lines, each of which is protected by its own AV with a correctly selected rating.
The commercially available lines of circuit breakers may have a rated current of 6, 10, 16, 20, 25, 32, 40, 50 or more amperes. It is important to choose the right model for each group. So, for example, at the entrance to an apartment or small a private house a paired two-pole circuit breaker of 25, 32 or 40 amperes can be installed (depending on the cross-section of the wires at the input). Next, separate lines are organized for the most powerful home equipment(stove, oven, washing or Dishwasher etc.), protected by their own circuit breakers with a rating of 16 amperes (this results in a load power of 3.5 kW). Similar lines are laid to socket groups located in the rooms and in the kitchen. And the separate lines unite lighting- a machine with a rating of 10 amperes is sufficient here.
What does this achieve? If a specific line is knocked out, and the rest continue to operate normally, then the troubleshooting area is sharply narrowed. Or, for example, the input circuit breaker was knocked out, but the rest of the circuit breakers with a lower operating current rating remained switched on - with a high degree of probability we can assume that the reason for the operation lies directly in the distribution panel.
One more important note. It is not enough to install a circuit breaker with a rating adequate to the connected load. The cross-section of the wires on this line must also correspond to the same load. Otherwise, if, for example, a 16-amp machine is installed, but it is included in the line where it is laid aluminum wire with a cross section of 1.5 mm, the protection may not cope with the task. At least until the overload causes the wiring insulation to melt, followed by a short circuit.
| Cross-section of copper wire, mm² (aluminum in brackets) | Maximum current under continuous load, A | Maximum load power. kW | Rated current of the circuit breaker, A | Maximum circuit breaker protection current, A | Scope of application in home (apartment) conditions |
|---|---|---|---|---|---|
| 1,5 (2,5) | 19 | 4.1 | 10 | 16 | lighting, alarm devices |
| 2,5 (4,0) | 27 | 5.9 | 16 | 25 | socket blocks, floor heating systems |
| 4,0 (6,0) | 38 | 8.3 | 25 | 32 | powerful climate control equipment, water heaters, washing machines and dishwashers |
| 6,0 (10,0) | 46 | 10.1 | 32 | 40 | electric stoves and electric ovens |
| 10,0 (16,0) | 70 | 15.4 | 50 | 63 | power input lines |
Well, now – directly to the reasons for the protection’s operation.
Line overload
This is perhaps the most common reason for a circuit breaker to trip. And this situation only means that the device conscientiously coped with its task.
And the origins of the cause lie in the improper organization of the home electrical network or in the ill-considered operation of household appliances. It happens that too many devices are connected to one socket group at the same time. The total load, and therefore the current in the line, exceeds the rated one, and the thermal release in the circuit breaker is triggered, thereby protecting the line from emergency overheating.
At the moment the machine is turned off, you should immediately see which line is overloaded (if this is organized), and what specific load was connected to it at that time. As a rule, the picture turns out to be clear. And when one of the devices is turned off, the knocking out of the machine stops. True, when you turn it on again, you have to give a pause of several minutes - the bimetallic plate of the thermal release must cool down, otherwise the machine simply will not turn on.
So, how is a problem like this solved?
- The first, of course, will be measures of the “administrative plan,” so to speak. That is, you should understand yourself and explain to everyone at home how and when you can simultaneously connect a powerful household appliances. Try to separate the devices you cannot do without into different outlet groups. Or even just keep in mind that, for example, if something is being cooked in an electric oven, you should not turn it on at the same time washing machine or a powerful water heater. In a word, prioritize the use of certain devices, the simultaneous operation of which leads to overload.
- The second way to solve the problem could be to purchase a circuit breaker with a rating one step higher (for example, instead of 16 - 25 amperes). But this is only possible if the cross-section of the laid wires allows, as mentioned above. If the section is insufficient, then the problem will only worsen and lead to even greater trouble.
- This suggests a third solution option - this major renovation with replacement with high-quality cables with a sufficient cross-section of copper conductors. This approach becomes especially relevant in houses or apartments where old aluminum wiring still remains, which is not at all designed for the modern level of electricity consumption.
If the wiring does not allow the installation of a machine of a higher rating, and the owners’ immediate plans do not yet include a major reconstruction of the home electrical network, all that remains is the rational distribution and use of the load. And, interestingly, in our time this can be solved, so to speak, at the “hardware level”. We are talking about special devices called load priority relays.
Such a device becomes especially relevant if the power limit allocated to an apartment or house is insufficient to simultaneously turn on all installed equipment. That is, there is frequent knocking out of the general machine at the input.
It works something like this. Household appliances are pre-distributed according to priority purpose. That is, the first group, say, includes those whose shutdown is undesirable under any conditions. Further, depending on the number of possible lines on the relay, other groups are “staffed”, and the priority of each subsequent one is less than that of the previous one.
If the permissible load exceeds the set rating, the group with the lowest priority will be turned off. If this is not enough, the next line will also turn off. But the most important devices will remain in operation, and there is no need to worry about overheating of the wiring. When the load normalizes, the relay will automatically turn on the lines in the reverse order.
The operation of the load priority relay, of course, requires a separate detailed consideration. And a publication on this topic will definitely appear on the pages of our portal.
Failure of household appliances
Another situation is when the connected load is clearly adequate to the rating of the machine. There is nothing to say that the line may be overloaded. But the defense works with “unshakable stubbornness.”
The reason may be a malfunction of the connected (connected) household appliance. In his electrical diagram Problems could occur that could lead to a short circuit.
It is not difficult to identify such a deficiency. First of all, you should, again, detect what exactly was connected to the power supply at the time the protection was triggered. After this, all these devices are turned off. Next, the machine starts up - and if the operation does not occur, then we can say that the accident area has already been localized in a certain way.
The next step is to sequentially connect previously turned off devices to the power supply. And, naturally, the “behavior” of the machine is monitored. The device whose connection to the outlet will trigger the protection clearly has internal faults and needs to be repaired. And you will have to stop using it until the problems are fixed.
So you should check all the disconnected devices - the picture should be completely clear. But when checking, do not forget about increased security measures. Since there are reasonable assumptions about a malfunction of a device, a phase breakdown on its body cannot be ruled out. That is, special care should be taken to avoid electrical injury.
Home Wiring Defects
In the event that all the load on the line is turned off, but the machine knocks everything out early, the reason may lie in a wiring fault. Here everything is somewhat more complicated - you will have to tinker a lot to find the defective area where the short circuit occurs.
They usually start with sockets and switches. When the line is turned off, the covers are removed from them, and then the condition of the terminals is first checked. It often happens (and more often if the wiring is aluminum) that the contact is weakened, sparking occurs on it, the insulation burns, from where it is only one step to a short circuit. And tightening the contacts can solve the problem.
This can also be caused by weakening of the spring metal contacts of the socket due to their wear. The issue is resolved by installing new socket. In this case, it is necessary to get rid of the burnt ends of the wires with melted insulation.
What to do with a socket that has become unusable?
It is always necessary to monitor the condition of the sockets - it is easier to identify a problem at the initial stage and prevent its development than to “shove it up” later. possible consequences. How to diagnose problems and read them in a special publication on our portal.
You should immediately check the lighting fixtures - short circuits also occur in their internal wiring. The defect may also lie in the cartridge - burnt contacts or even a short circuit at its terminals.
If the inspection of sockets, switches and lamps does not yield anything, we move on to working with distribution boxes. All wire connections should be checked very carefully - broken contacts in twists or loose terminals lead to sparking, overheating of conductors, melting of insulation and, as a result, a short circuit. It happens that the electrical tape previously used to insulate the twists unwinds, for example, due to a previous flood from the upper neighbors. And there should definitely be no bare sections of wires in the junction box.
If everything is in order here, you will have to look for the damaged section of the hidden wiring. First, you need to try to remember whether, shortly before the accident was discovered, the wall was drilled (nails driven into it). It happens that such actions without preliminary “reconnaissance” violate the integrity of the wiring or its insulation, which leads to short circuits.
Troubleshooting hidden wiring is best done using a special device. If it is not there, then you have to disassemble the connections in the wiring boxes and ring each section of the network individually, identifying the place or, or short circuit of the conductors. And if there is no experience in such operations, then it is better to immediately call a specialist.
Well, if a damaged area is identified, nothing but replacing it will help the matter.
Video: Possible reasons for frequent tripping of a circuit breaker
Other possible triggering cases
In addition to those mentioned, there may be other reasons for the protection to trigger. They are not that common, but it doesn't hurt to know about them.
- It happens that a machine with a low operating current rating (6 or 10 A) turns off when the incandescent light bulb burns out. At the moment when the hair breaks, an electric arc can form, and this will be perceived by the switch as a short circuit.
There is no defect in this, and no special measures are required. It’s just that the time has come to abandon incandescent lamps and switch to more modern and economical light sources.
- Even before all the above operations, it always makes sense to immediately check whether everything is in order with the circuit breaker itself. Specifically, whether the wires in its terminals are tightened well.
If the terminal is not tightened sufficiently, sparking cannot be ruled out, which leads to heating first of the metal contact, and from it - of the bimetallic plate of the thermal release. Hence the protection triggers. But it’s better than the case ending up with such high heating that the body of the device itself begins to darken and then melt.
By the way, this is a fairly common defect when using aluminum wiring. This metal itself is very ductile and with constant pressure from the screw (plate) of the terminal it begins to “sag”. That is, contact deteriorates over time on its own. This requires regular tightening, which is naturally forgotten. So if your house or apartment still uses aluminum wiring, one of your priorities should be to reconstruct your home electrical system by replacing aluminum with copper.
Which cable should be used for home wiring?
According to current rules, wiring in residential buildings should be carried out only with copper wires. Where aluminum remains, sooner or later a major replacement will still have to be carried out. A special publication on our portal will help you figure out the choice.
- Finally, if a thorough check of the home network and connected devices still does not reveal any defects, we can talk about a malfunction of the circuit breaker itself. It is clear that we are talking about a hidden malfunction - if the body of the machine is melted or, say, the lever is broken, then it must be replaced a priori.
And the reason for a hidden defect in a machine gun often lies in the desire of the owner, as they used to say at the Sukharevsky market in Moscow, to “buy for pennies.” That is, purchase a high-quality device for minimal money. Alas, this doesn’t usually happen in life.
A circuit breaker is, without exaggeration, a device for ensuring security - for your personal safety, for your family members, for your home, for all your acquired property. Is there any point in saving in such matters? Is it possible in one's right mind to purchase such a device cheaply second-hand or in a Chinese online store, where no one can guarantee the quality of the product and the correctness of its operation?
And even in a normal store, attention should first of all be paid to the machines famous manufacturers who have proven the high quality of their products. Alas, not everything is going well with some brands.
Among the domestic manufacturers, we can highlight the Kontaktor brand, which, by the way, belongs to Legrand, which speaks for itself. KEAZ machines are also a good solution in terms of price and quality ratio. You can find a lot of positive reviews about the products of the young Russian company DECraft. But regarding IEK machines, despite their affordability and wide range of models, there are, alas, more complaints from users. than enough.
We will conclude the publication by posting a video showing a comparison of circuit breakers.
Video: Circuit breaker - which brand is preferable, "Schneider" or "I.E.K."