The sensor is used to measure the current feeder temperature. Used for both screw and piston feeders. Its task is to inform about too high temperature of the feeder. The measuring element is quite well-known and popular KTY 81-210. This element works on the principle of changing the resistance under the influence of temperature changes. This information is then processed by the controller. It is mounted on the feeder pipe. When working with a pellet boiler, it acts as a feeder sensor.
REG 1 blower speed controller is a universal controller specifically designed for different types of blowers powered from the mains voltage of 230V. Adjusting the minimum rotations allows to use the entire useful range of characteristics of the blower. The device is used in systems where there is a need to enhance a single-phase motor control system with the adjustment of its rotations.
The REG 2 blower speed regulator is a universal regulator designed for various types of blowers supplied from 230V mains voltage, the power of which does not exceed 200W. The device is used in systems where there is a need to expand the control system of a single-phase motor with the regulation of its rotation.
The REG 3 microprocessor-based blower fan speed controller is designed to control the operation of a single-phase blower powered from 230V mains voltage. The device has the ability to control the blower rotation from an external source, it has a 0V-10V control input which allows the REG-3 to work with industrial controllers that support this standard. Moreover, the regulator has an input that triggers the regulation to which a 230V signal can be connected (e.g. from a device whose activation is also to start a blower connected to the REG-3 regulator). The controller has an "ENABLE" input which "allows" to turn on the blower. The blower can start running if this input is short-circuited.
The sensor is used to measure the current temperature in the central heating boiler. The measuring element is quite well-known and popular KTY 21-810. This element works on the principle of changing the resistance under the influence of temperature changes. This information is then processed by the controller. Most often it is mounted on the pipe at the exit of the boiler.
Argon 110 controller is a modern controller for boilers with an air jacket that support the feeding screw. It is used in hot air heating systems for halls and buildings. Argon 110 microprocessor controller is designed to control the blower supplying air to a burner, a feeding screw and two hot air blowers. It has an output for connecting a remote control which further enhances its usability.
Argon 3 controller is a universal controller for boilers with a feeding screw, and the successor of a reliable controller Argon 2. An improved control algorithm makes the combustion process more optimal. Argon 3 microprocessor controller is designed to control the feeding screw, the blower, the C.H. pump, and the H.T.W. pump. It has an output for connecting a remote control which further enhances its usability.
Argon 3P is a universal controller for boilers with a feeding screw, and the successor of a reliable Argon P controller. An improved control algorithm makes the combustion process more optimal. Argon 3P microprocessor controller is designed to control the operation of a feeding screw, a blower, a C.H. pump, and a H.T.W. pump. It has an output for connecting a remote control which further enhances its usability. Different types of housings in which the controller is available allow its mounting on the boiler or a tank with fuel, on the wall in the boiler room, under the boiler construction, in the control cabinet, on a bus.
ART C + microprocessor controller is a universal controller for the H.T.W. pump. The ease of use and reliability make it the most widely used controller in simple H.T.W. control systems.
ART P+ microprocessor controller is a universal controller for the C.H. pump. The ease of use and reliability make it the most widely used controller in the C.H. systems without an air-supply.
ART PCW microprocessor controller is a universal controller for C.H. and H.T.W. pumps. It has an input to connect a remote control that makes the controller more functional. The ease of use and powerful algorithm allow to use this controller for virtually most systems in which the pump is used.
Description: ART PDW controller is a controller for fine coal and hopper boilers and at the same time a successor of the ART PD controller. ART PDW microprocessor controller is designed to control the blower and circulating pump in the C.H. systems where there is no need to adjust the speed of the fan (adjustable air inlet by the aperture of the blower). It has an output for connecting a remote control.
ART PW microprocessor controller is a universal controller for C.H. or H.T.W. pumps. It has an input for connecting a remote control which makes the controller even more functional. The ease of use and powerful algorithm allow to use this controller for virtually most systems in which the pump is used.
ART ZW microprocessor controller is a controller designed to control the actuator with the mixing valve pump. In addition, a room thermostat or a remote control can be connected to the controller, which further enhances its functionality. The ART ZW controller allows to extend the features of the existing heating system at low cost without replacing the controller controlling the operation of the boiler.
IRYD 610 is a controller designed to control the operation of a central heating boiler with a feeding screw. The controller controls an extensive heating installation. A specially designed menu enables gradual activation of further functions and possibilities of the regulator. This regulator has a special fuzzy logic pid operation algorithm, which, after the user specifies the maximum and minimum boiler power, can smoothly select the appropriate fuel doses depending on the load on the installation and the type of fuel. The regulator controls the blower operation continuously by selecting the appropriate amount of fuel for the given blower speed. In addition, this version is equipped with an additional pid algorithm influencing the flue gas temperature, regulating the boiler power so that the flue gas temperature does not exceed the maximum value set by the user. These modern control algorithms allow you to save on the amount of fuel burned, and thus have a beneficial effect on the natural environment. Additionally, up to 5 mixing valve control modules, an internet module and a room panel can be connected to the regulator, which allows for a significant expansion of the heating system.
IRYD 620 is a regulator designed to control the operation of a central heating boiler with a pellet burner. The regulator controls an extensive heating installation. A specially designed menu enables gradual activation of subsequent functions and capabilities of the controller. This regulator has a special pid fuzzy logic algorithm that can smoothly select the appropriate fuel doses depending on the installation load and the type of fuel. The regulator continuously controls the operation of the blower by selecting the appropriate amount of fuel for a given blower speed. All this, combined with the automatic firing up and shutdown of the boiler, allows you to save on the amount of fuel burned, and thus it has a beneficial effect on the natural environment. The regulator can support additional expansion modules operating in the RS 485 standard, which allow for a significant extension of the heating installation and convenience of use. Such devices include a room panel, an internet module and a mixing valve module (possibility of connecting 6 mixers at the same time). Thanks to the support of the optical flame sensor and the flue gas temperature sensor, this regulator can work with virtually any pellet burner, both with 1 fuel feeder and with 2 feeders (auxiliary feeder). It supports self-cleaning burners with a moving grate as well as simple burners without optics and automatic cleaning. In addition, it has a function that allows combustion on an additional grate as well as the operation of the burner without flame control in emergency mode. The whole system is equipped with a number of additional sensors (e.g. external temperature, room panels) that allows the boiler to be turned off if the given heating circuits are heated up.Thus, the boiler with the iridium 620 regulator will ignite itself and start heating the circuit that will require it at the moment. As one of the few regulators, Iryd 620 has the ability to work with a heat buffer, which is more and more often used in modern central heating installations. The whole thing is dressed in a legible color display and proven electronic solutions that allow for pleasant use of the regulator for many years.
IRYD MZ pid fuzzy logic controller is designed to control the operation of the C.H. fine coal and hopper boiler. The controller controls an extensive heating system. A specially designed menu allows to progressively activate further features or abilities of the controller. This controller has a special algorithm for the operation of pid fuzzy logic, which after determining by the user the maximum and minimum capacity of the boiler can smoothly select the blower speed, depending on the electrical load of the system and the type of fuel. In addition, this version has an additional algorithm pid, affecting the exhaust gas temperature and regulating the power of the boiler so that the value of the exhaust gas temperature does not exceed the maximum temperature pre-set by the user. These modern control algorithms allow to save on the amount of burned fuel, and which has a positive impact on the environment.