Automation for gas heating boilers: device, principle of operation, review of manufacturers
Household heating appliances operating on liquefied or natural gas do not require constant attention and control from the owners. This task is performed by automation for gas heating boilers.
Electronic and mechanical control units integrated into the heat generator regulate combustion and help maintain the required temperature in the coolant.
The content of the article:
Types of automation for heating boilers
The automation works properly, accurately and reliably, increases the efficiency of heating equipment, promotes reasonable consumption of energy resources and makes the operation of the heating system simple, comfortable and absolutely safe.
The automatic system protects heating installations from overloads and activates an emergency shutdown of the gas supply in the event of sudden force majeure circumstances. Additionally, the equipment regulates the level of combustion intensity and current fuel consumption, allowing owners to save money on heating the premises.
Based on the basic operating principle and design features, automation for gas-powered equipment is divided into:
- energy dependent devices;
- energy-independent devices.
Systems of the first type are complex electronic units that require an uninterrupted electrical supply to operate correctly. The second types of devices are simplified mechanical structures that do not require energy supply.
Type #1 - volatile products
Volatile module is a small electronic device that responds to the supply of fuel. It turns on and off when the main gas valve is activated or closed. It has a complex design and a large number of elements and microcircuits.
Allows owners to solve the following tasks:
- activation or termination of gas supply;
- starting the heating system in automatic mode;
- adjusting the power level of the base burner (due to the presence of a thermostat);
- turning off a running boiler both in emergency situations and within a user-specified mode;
- displaying current indicators on the display (the general level of air temperature in the room, the point to which the working coolant has been heated, etc.).
More sophisticated modules have additional functionality and offer users unlimited and most convenient conditions for monitoring the operation and control of the unit. Electronic panels provide complete protection of heating equipment from malfunction three way valve and do not allow the boiler to freeze.
If the temperature in the room drops sharply, the “smart” system itself starts the heating equipment and turns it off when the home is filled with comfortable warm air.
The self-diagnosis option available for individual modules prevents operational failures and facilitates the timely identification of faulty parts and assemblies in the system. It makes it possible to notice a breakdown as early as possible and replace some small element even before it creates a real problem for the equipment.
Electronic automation, responsible for the safe operation of the equipment, ensures uninterrupted operation of the boiler, prevents the system from overheating and shuts off the gas supply in the event of a drop in draft or extinguishment of the flame in the burner.
The range of energy-dependent automation on the market today is pleasingly diverse. Useful and necessary mini-units are produced by world-famous brands and small companies that are just trying to earn their place in the sun.
Among the models offered there are both very simple products and more advanced units with a programming option.
On them the user can choose the most suitable ones for himself individual settings and program the system to operate in day/night mode or, based on the weather forecast, set a certain level of heating of the house or apartment for a period of 1 to 7 days.
Type #2 - non-volatile units
Non-volatile automation more simple and practical. Control and adjustment are carried out manually using mechanical rotary toggle switches and are not difficult even for those who are far from technology. The device operates completely autonomously and does not need to be connected to a central electrical system.
The product is marked with a digital scale with a list of values from minimum to maximum. To activate, the user selects the desired mark and in this way sets the appropriate operating temperature directly to the boiler.
After these manipulations it connects thermostat and takes control of the specified heating mode. The boiler actively works until the room warms up to the desired temperature. Then the thermostat turns off the gas supply to the system and is activated again only when the room gets colder.
The operating principle is based on the specific design of the device. The gas boiler thermocouple built into the heat exchanger is equipped with a special rod.It is made from a special iron-nickel alloy called invar.
The physical characteristics of this advanced material give it the ability to almost instantly capture minimal temperature fluctuations.
If the room becomes too hot or too cold, the size of the rod changes. The connecting valve reacts to this and promptly shuts off or activates the flow of gas to the burner.
Additionally, non-volatile automation has sensitive draft and flame sensors. If the pressure in the pipe suddenly decreases or the draft level in the chimney drops for some reason, the supply of the resource is immediately stopped and gas leakage can be avoided.
Correct operation of the flame sensor is ensured by a special plate. During normal and correct operation of the system, it is in a slightly curved state.
In this way, the part holds the shutoff valve in the “Open" When the flame becomes smaller, the plate is leveled and the valve closes under its pressure.
Design and operating principle
Automation that controls the work gas boiler, consists of many elements, conditionally divided into two subgroups.The first includes mechanisms that ensure the full and safe functioning of the boiler itself. The second includes devices that make it possible to operate the heating system in the most convenient and user-friendly mode.
Components of a security system
Several modules are responsible for the operational safety of the unit:
- Flame controller – consists of two main parts - a solenoid valve and a thermocouple. Shuts off gas promptly and reliably and prevents leakage.
- Thermostat – maintains the set coolant temperature and protects the system from overheating. When the coolant cools down to minimum temperatures, the module starts the boiler into operation, and after recording peak-high readings, it turns it off, completely relieving the owners of the need to constantly pay attention to the system.
- Traction control sensor, is responsible for stopping the gas supply to the burner in the event of a change in the basic position of the bimetallic plate, thus preventing gas leakage.
- Safety valve – monitors the amount of coolant in the circuit.
In addition to all the above useful qualities, the automation has a number of additional functions that increase the comfort of using the equipment.
The device performs automatic ignition of the gas burner, selects the most effective operating mode, promotes rational consumption of energy resources and conducts independent diagnostics, saving the owners from all these activities.
Operating principle of security automation
Current regulatory documentation says that the safety system for gas boilers must be equipped with a device that stops the operation of the entire system and shuts off the gas supply in the event of an unexpected breakdown or any other force majeure circumstances.
To carry out this task, automation must keep under control such parameters as:
- gas pressure in the system;
- presence of an optimal size flame in the burner;
- full, high-quality traction;
- working coolant temperature level.
When the gas pressure in a non-volatile mechanical system drops to a critical level, the resource supply immediately stops. This happens automatically due to the presence of a valve mechanism set to a certain value.
Volatile electronic devices are designed slightly differently. In them, the above function is performed by a minimum/maximum pressure switch.
As the number of atmospheres increases, the membrane with the rod bends, opening the power contacts of the boiler itself. Gas stops flowing and is not supplied until the pressure level is restored.
If the flame disappears in the burner, the thermocouple cools down and stops producing current. After this, the electromagnetic damper in the valve no longer functions and gas stops flowing to the burner. When the thrust drops, the bimetallic plate heats up intensely, changes shape and acts on the valve, causing it to stop supplying fuel.
The coolant temperature is kept under control by a thermostat. It ensures that the user-selected heating mode is maintained, while preventing the system from overheating and failing.
Nuances of the system's functioning
Volatile electronic automation operates based on information received from sensors. The microprocessor and internal controller analyze this data, process it and provide the system with commands that are optimally suited for a particular situation.
Mechanics have a slightly different principle. When the boiler is turned off, the internal gas valve is completely closed. At the moment the equipment is started, the washer on the valve is squeezed out and the passage for the fuel resource to the igniter is forced to open. Ignition stimulates heating of the thermocouple and voltage is generated across it.
This resource uses an electromagnet to maintain the valve in the open position. By turning the washer manually, the user can effortlessly adjust the level and power of his heating equipment.
Review of popular models and manufacturers
The market for advanced gas equipment and related elements includes automation from both domestic and foreign manufacturers. According to the principle of operation, all devices are absolutely identical, but in terms of design there are significant differences between them.
The cost of modules varies over a wide range. Simple mechanical products with a minimum of functions belong to the budget class and are sold at the lowest price. Advanced electronic panels are valued much higher, but provide the user with more extensive options for individual settings and control of operation.
Programmable electronic devices are considered luxury. They enable the owner to set an operating plan for the equipment for a long period of time, taking into account seasonal weather conditions and the current outside air temperature.
No. 1 - automatic EUROSIT 630
Automatic non-volatile unit EUROSIT 630 produced by an Italian company Sit Group (Eurosit) In terms of sales, it occupies a leading position in the market.
It is considered universal and works effectively with parapet and floor-standing boilers power from 7 to 24 kW. Switching on/off, igniting the pilot burner and setting the desired temperature are carried out using one handle with a button.
The product is characterized by a high level of reliability, can withstand significant operating loads and has extensive functionality.The structural elements are “hidden” in the housing, to which sensor cables and other connecting tubes are routed.
Inside the unit there is a cut-off valve, a spring valve and a pressure regulator. The gas supply is carried out from below or from the side according to the user’s wishes. In terms of cost, the unit is included in the budget category.
No. 2 - Honeywell 5474 module
The Honeywell 5474 device is manufactured by a German concern Honeywell, which has been specializing in the development and sale of various types of automation for more than a hundred years. Works correctly with household gas boilers power up to 32 kW.
The Honeywell 5474 automatic system is equipped with a basic set of control functions that guarantee efficient operation of the boiler with absolute safety for users.
In automatic mode, the product maintains the specified coolant temperature (from 40 to 90 degrees), turns off the boiler in the event of a fuel supply cutoff, lack of draft at the required level in the chimney, reverse draft occurs, or burner extinguishment.
No. 3 - premium automation from Honeywell
In addition to inexpensive budget models, the company Honeywell also produces other types of automatic equipment, for example, luxury chronothermostats of the premium ST series or programmed thermostats Honeywell YRLV430A1005/U.
These electronic panels allow you to set the heating equipment the most detailed and precise settings, up to changing the temperature several times a day depending on the time of day, weather conditions and personal wishes.
No. 4 - Orion device
Automatic device Orion manufactured in Russia. The device includes a piezoelectric ignition and a draft sensor.
The device turns off the gas in case of random extinguishing of the burner or lack of the required draft. When the room temperature drops, the thermostat activates the fuel supply and the boiler resumes operation.
The transition to the flame reduction mode when a certain (user-specified) temperature is reached occurs automatically and allows you to save fuel resources.
Conclusions and useful video on the topic
A detailed description of the operating principle of automation designed for a gas boiler. Interesting features and nuances of monitoring equipment:
How does the automation of a gas heating boiler work? A visual demonstration of the process of igniting a gas unit:
A detailed description of one of the most popular automation models designed for controlling and adjusting a gas boiler:
An automatically controlled gas heating system is a practical and cost-effective option for home heating equipment..
The mechanical controller is distinguished by its low price, reliability and simple control method. The electronic panel is more expensive, but has advanced functionality that allows you to create the most comfortable conditions in the room.
It is better to purchase mini-units in company stores that sell certified products that meet all the requirements for elements of gas-powered heating systems.
Do you know the intricacies of gas equipment automation that are not mentioned in the article? Did you have any questions while reading the material? Please write comments, share your own opinions and photographs on the topic of the article.
I have a double-circuit wall unit, and automatic safety systems for flame extinction, lack of gas, pressure loss, and other force majeure are built inside. Two letters are displayed on the display, by which you can understand why the boiler turned off.
And there is also an automatic thermostat, programmable, so it controls the boiler according to the room temperature, and according to the settings of workdays and weekends. This is in order to feel comfortable and at the same time save money (for example, when there is no one at home all day, it is turned off, and an hour before arrival it turns on and warms up the apartment).
Automatic is, of course, cool, but for some time now I have been giving preference to mechanics. Maybe this is a step back in terms of progress, but it’s more convenient for me.The fact is that once there was a thunderstorm, lightning struck somewhere close, and all my automation burned out. Or rather, an electronic board, but it costs a lot, half the cost of the device itself. Maybe, of course, someone was luckier, but it was very convenient to use.
TOTAL SHIT this Italian 630!!! For 6 years this “hero” regularly extinguishes itself three or four times during the winter!!! in the middle of the night in windless weather!!! starts after 20-30 minutes of hysteria near the start button - at first the fuse barely lights up...then it goes out when the gas valve button is released!!! If you suffer with the boiler for half an hour (at best), then it will “flare up”!