RU8449U1 - HEATING RADIATOR - Google Patents

Abstract

A heating radiator comprising a sectional tubular circuit of horizontal and vertical channels filled with a coolant, characterized in that it is equipped with an autonomous heating element installed inside the circuit, chokes and temperature sensors at the inlet and outlet of the coolant, electrically coupled with room temperature sensors, and the autonomous the heating element is located in the lower part of the section farthest from the coolant inlet and is equipped with a V-shaped heat flux reflector in in the form of plates installed at an angle to the vertical, having a slotted gap in the lower part, and the number of vertical channels in each section is odd.

Description

HEATING RADIATOR.

The utility model relates to the field of water separation, and more specifically to radiators of domestic heating systems.

Nanellary radiators are known, predominantly emptying systems containing tenon-releasing walls, on the surface of which channels are formed for the passage of the coolant with horizontal and vertical sections, and the horizontal sections of the channel are made with dimple holes connected to each other with a half step offset, and the vertical sections are made with recesses, the height of which is equal to the height of two recesses forming horizontal sections of the channel, and the distance between them (see, for example, AS USSR No. 560108 according to class F 24C 15/24 for 1975) 1. The disadvantage of this device is the inability to adjust heat transfer depending on changes in room temperature.

A sectional heating radiator is also known, containing a series of orthogonal pipes made of aluminum profile, using nipples hermetically fixed in the holes of the upper and lower collector, also made of ashominium profile, moreover, the connected part of the nipples and collector holes are threaded, and a bevel is made at the base of each hole, mating with the edge of the pippe section; at the same time, a chamfer is formed on the inner surface of each pipe, forming a chamfer of the collector hole after pressing the pipes on the nipple A V-shaped annular gap in which the gasket is placed, and grooves are made on the nipple section pressed into the pipe and seals are installed in them

MKI F 24 D 3/00 F 24 D 13/04 F 24 S 15/24

(see, for example, AS USSR No. 2059933 according to class F 24D 3/12 for 1993) 2. The disadvantage of this device is the impossibility of automatically controlling heat transfer depending on changes in the room’s hemnegura.

A storage heating device is also known, comprising a heating device, two independent Koiii pa heat carriers, interconnected by a pipe-in-pipe heat exchanger, the inner central part of which is connected to the first circuit equipped with a heating unit and a battery installed in series, and the outer ring to the second, however, it is additionally equipped with a peak heating installation located in the second circuit, and said heat exchanger serves as a heating device , (see, for example, RF patent No. 2073173 according to CL F24D 11/00 for 1997) 3.

The above device 3 is closest in technical essence and the number of common features to the claimed utility model, in connection with which it is taken as the closest analogue.

The main disadvantage of device 3 is the inevitable removal of heat received from an additional, peak, heating device in the heating network, which makes it economically disadvantageous for the consumer. In addition, the disadvantage of device 3 is its low efficiency, as well as the inability to automatically control and control the temperature of the coolant supplied from the central heating network.

The task to which the proposed utility model is aimed is to increase the economic efficiency of energy supply and reduce costs during operation of heat supply systems of residential premises.

The specified technical result is achieved due to the fact that the heating radiator containing the sectional tubular circuit of horizontal and vertical channels filled with coolant is equipped with an autonomous heating element installed inside KOHTyjxs, damping flaps and temperature sensors in the code and coolant outlet, electrically connected to the sensor hemperechura of air in the room, and automark heating the gel element is located in the lower part of the sections farthest from the coolant inlet, and equipped with heat flux reflectors, in the form of plates installed at an angle to the vertical, having a slotted gap in the lower part, and the number of vertical channels in each section is odd.

It is known in the art to use additional heating devices in water heating systems 3. It is also known to use temperature sensors to automatically turn heating devices on and off. In the claimed utility model, the presence of sensors and chokes installed in certain places in conjunction with a specific installation location of an autonomous heating element, as well as the presence of heat flux reflectors and an odd number of vertical channels in each section, allows you to create an additional thermodynamic ring in the radiator, which is abruptly towards the main, formed the main input of the heat of the heat exchanger. This allows you to increase

Hydro-hydro-dipamic resistance of the radiator to the heat exchanger, where it is required to hold the heat released by the autonomous heating element, and if necessary, in case of emergency, move the radiator to a completely autonomous mode, independent of the heating system.

in FIG. 1 - shows a General view of the heating radiator,

close to heat supply;

In Fig.2 - shows a bit {; s AA in Fig. one;

On (.Z - shows a nugget element with reflectors

flow.

Oniul radiator consists of connected,; sections 1, in which horizontal 2 and vertical 3 channels are formed, connected by inlet 4 and outlet 5 nozzles with a main pipe 6. On the inlet 4 and outlet 5 nozzles are installed temperature sensors for coolant 7 and 8, as well as control chokes 9 and 10, electrically connected through the control unit 11 with a room temperature sensor 12 and an autonomous heating element 13, which can be selected of any type, for example, pulsed electric ktrichesky. On the other hand, on the sides of the heating element 13, a V-shaped heat flux reflector is installed at an angle to the vertical axis, directing the heat flux vertically upward towards the flow of the heat carrier, made in the form of plates 14, installed at an angle to the vertical axis with a slit gap “b in lower part.

The device operates as follows: water-coolant from the pipeline 6 through the inlet pipe 4 enters

main pipeline 6 of the central heating network. This occurs at a normal set air temperature in the room and the corresponding coolant temperature. When the temperature of the coolant entering the radiator rises, the temperature sensor 7 activates and drives the chokes 9 and 10 at the inlet and outlet, reducing the water supply. If there is a sharp decrease in pressure at the inlet pipe 4, which may indicate an accident

on the heating system, then the chokes 9 and 10 crush the input and output pipes 4 and 5, do not turn the radiator into a fully autonomous mode, independent of the shogi. In the event of a decrease in air temperature in the room, the temperature sensor 12 is triggered, after which the self-contained heating element 13 is turned on. The heated water-coolant rises upward in the direction created by the V-shaped reflector of the nuke, in the form of plates 14 mounted at an angle to the vertical axis and having at the bottom of the gap “b. In this case, an additional thermodynamic ring will be created, directed towards the main one, formed by the main entrance, which leads to the locking of the coolant in the heating radiator.

The proposed useful model allows one (it is possible to increase the efficiency of energy supply and reduce costs in the operation of heating systems of premises.

Claims (1)

A heating radiator comprising a sectional tubular circuit of horizontal and vertical channels filled with a coolant, characterized in that it is equipped with an autonomous heating element installed inside the circuit, chokes and temperature sensors at the inlet and outlet of the coolant, electrically coupled with room temperature sensors, and the autonomous the heating element is located in the lower part of the section farthest from the coolant inlet and is equipped with a V-shaped heat flux reflector in in the form of plates installed at an angle to the vertical, having a slotted gap in the lower part, and the number of vertical channels in each section is odd.