DE1579690A1 - Radiant heater - Google Patents

Description

S trah 1 ungsheizg t e r ä for heating of large spaces such as factory floors, or open-air spaces are often infrared radiation heaters used, which are usually electric, but recently also heated by gas or Ü1. The known gas or oil-heated devices have a radiant body, for example a light ceramic plate, the fine channels of which serve as combustion channels through which the combustible gas-air mixture flows. The mixture is ignited when it emerges from these channels. After a short heating-up time, the ceramic plate glows on the outlet side of the mixture and gives off heat in the form of radiation. Diesle devices work relatively uneconomically, since a considerable part of the combustion energy is dissipated unused through the exhaust gases. In addition, the exhaust gases pollute the atmosphere, which is disadvantageous for installation in closed rooms especially in oil-heated devices.

The invention has set itself the task of creating a radiant heater with a burner for liquid or gaseous fuels in which the largest possible proportion of the combustion heat is converted into radiant heat and which can be designed as a self-contained unit . These The object is achieved according to the invention in that the radiation heater a heat-radiating surface heated by the burner which is part of a closed combustion chamber is the one with an air preheater for the combustion air is in connection, whereby behind the heat-radiating surface a reflector is provided behind which the additional and / or control devices for the burner, e.g. Incineration air blower, atomizing air blower, ignition transformers, re- gel devices for gas or oil supply, if necessary also couplings for fuel, electricity or exhaust gas connections, in the case of deflectable devices also the lifting devices etc. are arranged. The inventive proposal is a Device created in which the combustion energy is converted up to 80% into radiant heat and which is therefore characterized by a very good thermal efficiency. Because of this and the fact that in the device according to the invention, the radiant heat is above all close to the ground. Area is supplied , there is a considerable saving in fuel. This high degree of efficiency results from the fact that a large part of the heat that would otherwise be lost through the exhaust gas is recovered by preheating the combustion air and that the radiant heat is also protected from scattering losses by the arrangement of the reflector. It is of course known in other heating devices, on the one hand, to achieve a higher degree of efficiency by arranging an air preheater and, on the other hand, to provide a reflector. Due to the novel combination of these two measures tion in conjunction with cien urJrigen features, however, a novel -Strahlungsheizgerä.t create overall that can be built for very high power, high efficiency has, does not cause pollution of the atmosphere in closed rooms and The arrangement of the additional and control devices behind the reflector enables the device to be combined into a closed unit , which is particularly advantageous when such devices are to be attached individually at greater heights, for example on masts or on hall ceilings . The reflector is preferably arranged between the heat radiating surface and the air preheater, on the one hand one as far as possible detection of the radiating in wrong directions heat and on the other hand, a favorable arrangement of the stationary with the air preheater associated auxiliary equipment, especially darr blower for the Verbrennungeluft, behind the reflector to enable. The heat-radiating surface is preferably part of a radiant tube known per se, the air preheater being arranged essentially parallel to the radiant tube. This results in a particularly compact structure and the possibility of arranging the burner at one end and the fan for the combustion air at the other end of the device. This creates a certain amount of weight compensation, which is particularly important for devices that are suspended in a suspended manner.

Is the device for mounting at greater heights, e.g. on Hal'-. lendecken or on masts, determined, it is expedient to attach the device can be lowered on a supporting body which is mounted in turn on the hall ceiling or on the mast, wherein between the support body and the device couplings for fuel, electricity and optionally exhaust port provided that these connections switch off automatically when the device is lowered. This training makes the maintenance of the device considerably easier.

Four exemplary embodiments of the invention are explained in more detail below with reference to the drawings.

In the drawings: Figure 1 is a radiant heater with an oil-heated beam tube burner, partly in section, Figure 2 shows a section according to line I-1 in Fig 1, Fig 3 is a detail of Figure 1, Figure 4 is a radiant heater similar to FIG...... 1 with a gas-heated radiant tube burner.

Fig. 5 shows a radiant heater with an oil-heated mushroom burner, and Eig. 6 shows a radiant heater similar to FIG. 1 in a view from below with an oil-heated O-tube burner.

That in Pig. A radiant heater as shown 1 and 2 is intended for off lowerable attachment to a hall ceiling. 1 It has a radiant tube burner 2 consisting brermer Ö1-aua a lance 3, an inner tube 4 and a generally, designated 5. The hot exhaust gases flow through the inner pipe 4 and get partly through holes 6, partly through the open end 7 of the inner pipe into the space 8 between the inner pipe 4 and the jet pipe 3 and heat the jet pipe 3 to the glowing temperature . After flowing through the intermediate space 8, the exhaust gases pass through a line 9 into an air preheater 10, which is equipped with a number of longitudinal tubes 11. The exhaust gases flow through these pipes 11 and exit through a line 12 which is connected by a plug-in coupling 13 to an exhaust pipe 14 attached to the ceiling 1. The combustion air is sucked in by a fan 15 through a filter 16 and fed to the air preheater 10 through a line 17 . The combustion air flows through the air preheater 10, forced by deflector plates 18 , in a zigzag shape and passes through the line 19 to the oil burner 5. The oil is sucked in by the pump 20 via a line 21, a plug-in coupling 22 and a line 23 from a level vessel and through the line 24 conveyed to the burner nozzle 25. 26 denotes a line through which the cooling air is branched off from the line 17 and fed to the burner nozzle 25, which is of particular importance here because, due to the preheating of the combustion air, the otherwise usual cooling of the nozzle by the combustion air is omitted and so is the immediate environment of the oil burner 5 can assume very high temperatures because of the reflector 27. This reflector 27 extends over the entire length of the radiant tube burner 2 between the latter and the air preheater 10.

An ignition device, which is fed by an ignition transformer 29, is designated by 28. A flame monitor 30 with a photocell 31 is provided in the usual way to monitor the burner. Power is supplied via a coupling plug 32.

All individual parts of the device are fastened directly or indirectly to a device carrier 33, from which struts 34 extend, on which the air preheater 10, the reflector 27 and the radiant tube burner 2 are attached. The fan 15 with the oil pump 20, the ignition transformer 29 and the flame monitor 30 are attached directly to the equipment carrier 33. As can be seen, these additional devices including the photocell 31 are arranged behind the reflector 27; so that they are estimated from the extremely intense heat radiation of the radiant tube 3. By the same token are the hot ones? Exhaust gases and preheated combustion air lines 9 and 19, respectively, in their sections located behind the reflector 27 and the air preheater 10 are thermally insulated. The device support 33 is by means of a via rollers 36,37 ongoing the rope 38 can be lowered to a ceiling mounted support body 1 35 attached. For centering of the instrument carrier 33 to the supporting body 35, which is necessary to ensure a perfect interaction of the parts of the plug-in couplings 13 and 22 and the plug 32 are, on the supporting body 35 Supports two pipe mounted 39, engage the guide pin 40, which at Equipment supports 33 are attached and run upwards to a conical shape in order to facilitate the introduction into the pipe socket 39. For repairs or Vartungsarbeiten the device carrier can be lowered with the complete 33 Strahlungaheizgerät by means of the cable 38, wherein the plug-in couplings are 13,22 and 32 released automatically and the current and the oil supply is interrupted. The coupling for the oil supply is shown in section in Fig. 3. It has a spring-loaded ball valve 41, which shuts off the oil supply when the device is lowered and if the device is in operation, through the end the line 21 is lifted from its valve seat 42. The pipe 21 is sealed in the coupling body 43 by sealing rings 44.

As can be seen, comes through the selected guide the combustion air and the exhaust gases of the oil burner 5 at one end and the fan 15 for the combustion air at the other end of the device-to lie tes. Thereby, a weight balance is achieved, which is for the stability of the device during the lowering of vesentlicher importance The Strfütlungsheizgerät shown in FIG. 4 is operated with gas and not lowered moun- ted at its destination .. It consists essentially of an implement carrier 33 ' , proceed from the struts 34 ' to which the air preheater 10t, the reflector 27t and the radiant tube burner 2' are attached. The fan 15t for the combustion air as well as the ignition transformer 291 and the flame monitor 30 'are attached directly to the device support 33'. The fuel gas is fed to the gas burner 5 ′ through a line 45. The hot exhaust gas e, heat the radiant tube 3T and pass through the conduit 91 in the air preheater 101, from which it led away through the conduit 12't be. The combustion air passes through the line 17t into the air preheater 70t, flows through it in countercurrent and is fed to the gas burner 51 through the line 19 '. In this exemplary embodiment , too, all additional devices are arranged behind the reflector 27t and all line sections lying behind the reflector 271 and which carry hot exhaust gas or heated combustion air are thermally insulated. The embodiment according to FIG. 5 is a permanently installed radiant heater with an oil-heated mushroom burner. The heat radiating area is in the form of a mushroom 50 and is an oil burner 5 "heats loading. The exhaust gases pass through a pipe 9" in an air preheater 10 and has been "whose inner tubes 11 pass through" discharged through the line 12 ". The Combustion air is sucked in by a fan 15 ″, fed through the line 17 ″ to the air preheater 10 ″ and passes through the line 19 ″ to the burner 5 ″. 29 "is the ignition transformer, with 30" of the flame detector and with 20 "is the oil pump indicated. All DIE se auxiliary equipment including the blower 15 'are sentlichen essen- arranged behind the first, arabolartig formed reflector 27', the equally such as the air preheater 10 'and the burn- ers = 5'# with your mushroom-shaped radiation body 50 ben 51 beispialsweise on a wall 52 to be heated suede mes is fixed by Stre-. .

Since * the embodiment according to rig. 6 differs from that according to FIG. 1 essentially only in that a so -called 0-pipe 60 is used instead of the straight jet pipe 3. In such O-tubes , even heating is achieved in that the hot gases suck in exhaust gas from the tube through a nozzle 59 like an injector and thus circulate a larger amount of hot gas in the direction of the arrows. Fig. 6 shows the device in a view from below. The air preheater and the additional and control devices are located behind the reflector 27 and are therefore not visible.

Claims (5)

P at e nt claims @ Radiant heater for large area heating with a burner for liquid or gaseous fuels, characterized by a heat-radiating surface heated by the burner , which is part of a closed combustion chamber which is connected to an air preheater for the combustion air , whereby a reflector is provided behind the heat-radiating surface, behind which the additional and / or control devices for the burner are arranged. 2. Radiant heater according to claim 1, characterized in that the reflector between the heat radiating surface and. the air preheater is arranged. 3. A radiant heater as claimed in claim 1 or 2, characterized in that the heat-radiating surface is part of a radiant tube is known per se and that the air preheater essen- sentlichen is arranged parallel to the jet pipe. 4. A radiant heater as claimed in claim 3 with a fan for the combustion air, characterized in that the fan (15) to the burner (5) end of the device remote from is arranged. 5. A radiant heater as claimed in claim 3. or 4, marked thereby characterized, that the jet in a known manner comprises an inner tube in which the burner flame is burning, and that the intermediate space between jet pipe and inner pipe as an overall connected with the air preheater Related exhaust guide is formed, being opposed to the flow direction of the combustion air to the flow direction of the combustion gases in the air preheater. 6. Radiant heater according to one of claims 1 to 5, suitable for mounting at greater heights, for example on hall ceilings, masts or the like, characterized in that it is attached to a support body and that between your support body and the device couplings for the fuel, electricity and, if applicable, exhaust gas connections are provided, which automatically switch off these connections when the device is lowered