A magnetic filter for a central heating or cooling system comprises a pipe having an inlet end and an outlet end, and a filtration portion between the inlet and outlet ends the diameter of the filtration portion of the pipe being greater than the diameter of the inlet end of the pipe and also greater than the diameter of the outlet end of the pipe, and a magnet assembly adapted to be attachable to the pipe, around an outside surface of the filtration portion of the pipe, and movable relative to the pipe from a position close to the pipe to a position more distant from the pipe.

The invention is, in one aspect, a system for heating or cooling a room, including a radiant panel with fluid conduit, which, radiates energy to a room. A heat exchange device exchanges energy between the fluid in the radiant panel and an exchange medium. A vent allows fresh air to enter a room, moved by a fan. The fan propels the air through a chamber for heating or cooling the air, wherein the chamber at least partially comprises the radiant panel.

The invention is, in one aspect, a system for heating or cooling a room, including a radiant panel with fluid conduit, which, radiates energy to a room. A heat exchange device exchanges energy between the fluid in the radiant panel and an exchange medium. A vent allows fresh air to enter a room, moved by a fan. The fan propels the air through a chamber for heating or cooling the air, wherein the chamber at least partially comprises the radiant panel.

A filter for removing particles held in suspension by a fluid. The filter includes (a) a manifold having an inlet and an outlet; and (b) a main filter body connected to the manifold. The main filter body includes a flow disrupter, the flow disrupter comprising a tiered plate assembly arranged in the filter body and each plate in the tiered plate assembly comprises an arrangement of apertures. The inlet of the manifold, the tiered plate assembly, the outlet of the manifold and a bottom of the main filter body define a flow path for fluid to be treated.

The invention relates to a device and a method for icing prevention regulation for a heat pump evaporator (3) in air conditioning systems of vehicles, composed of a subsection (1) of a refrigerant circuit which can be operated both as a heat pump and also as an air conditioning system. The device comprises the heat pump evaporator (3), an electrical or mechanical refrigerant compressor (4), a cooler fan (9) which is attached to the heat pump evaporator (3) and which draws ambient air (11) upstream from and through the heat pump evaporator (3) at an adjustable flow speed, and which thus permits a permanent flow of ambient air (11) over the heat pump evaporator surface, a first temperature sensor (6) in or on the refrigerant line (5, 5a) upstream from the heat pump evaporator (3) with respect to the heat pump operating direction, and a control and regulating unit (8). The control and regulating unit (8) is connected via signal lines (10, 10a, 10b, 10c, 10e) at least to the first temperature sensor (6), to further sensors, in particular for detecting the ambient air temperature (Tu) and the vehicle speed (V.sub.F), to the expansion valve (2), to the cooler fan (9) and to the refrigerant compressor (4) for the direct or indirect regulation of the flow cross section of the expansion valve (2) and the rotational speed of the electric refrigerant compressor (4) or of the regulating valve of the mechanical refrigerant compressor (4) and for the actuation of the cooler fan (9) of the vehicle during heat pump operation.

A magnetic filter 10 for a central heating system is disclosed, the filter 10 including a connection assembly 12, a canister 14, and a magnetic element 16, the connection assembly 12 including an inlet 24 and an outlet 26 for connection to a central heating circuit; the canister 14 having an interior separation chamber which is fluidly connected with the inlet 24 and outlet 26 for allowing fluid to flow into the inlet 24, through the separation chamber, and out of the outlet 26; and the magnetic element 16 being removably positionable on the outside of the canister 14, the canister 14 and the connection assembly 12 forming a sealed flow path comprising the inlet 24, the interior separation chamber and the outlet 26, and the connection assembly 12 further including a closable drain outlet 28b for draining fluid and magnetic particles from within the canister 14, internally of the magnetic element 16.

A user interface for a thermostat that controls a radiator valve can include a user input member that is movable from a home position to a set point increase or decrease position to increase or decrease a set point temperature of the thermostat. In some embodiments, a return mechanism returns the user input member to the home position after being released from one of the set point increase and decrease positions. The user interface can include an indicator panel and controller that controls the indicator panel to provide an indication of when the set point temperature of the thermostat is being adjusted. The user interface can also include a lockout controller that prevents further set point temperature adjustments using the user interface when the set point temperature differs from the environmental temperature by a specified amount.

A heating or a cooling system (102) comprising a fluid circuit (101) and apparatus (110) to supply a flow of top-up liquid to the fluid circuit (101). The apparatus (110) comprises a liquid reservoir (201) comprising an inlet port (202) connected to a liquid source (112), an outlet port (204) connected to the fluid circuit (101), and a pump (205) operable to move liquid from the liquid reservoir (201) to the outlet port (204) along a flow path. The apparatus (110) further comprises a light source (208) operable to emit ultraviolet light incident on liquid flowing from the liquid reservoir (201) to the outlet port (204) along the flow path. A method of supplying a flow of top-up liquid to the fluid circuit (101) of the heating or the cooling system (102).

A magnetic filter is disclosed suitable for use in large heating and/or cooling systems, for example heating systems using pipework between 2 inch bore and 4 inch bore. The magnetic filter includes a separation chamber in the form of a pipe, and externally-mounted magnetic 5 assemblies which are movable from a position close to the pipe to a position spaced from the pipe. The magnetic assemblies are pivotally mounted to the pipe via a framework.

The present invention relates to a multi-functional convection electric heater, comprising: a heating structure, which comprises a ceramic tubular device and a convection device, used to supply a heating source, and the convection device is connected with the ceramic tubular device, and is used to receive the heat supplied from the ceramic tubular device, and performs subsequent heating in a convection manner; a CMOS sensing device, which is used to capture a surrounding environment to obtain and output a corresponding surrounding environment image; and a homomorphic filtering device, which is connected with the CMOS sensing device, and is used to receive the surrounding environment image, and performs homomorphic filtering to obtain a corresponding homomorphic filtering image, wherein as the noise amplitude of the surrounding environment image gets larger, the intensity of performing the homomorphic filtering will be increased. The present invention enriches the electronic functions of the convection electric heater.