DE2940801A1 - Radiant heater with cylindrical combustion chamber - has cylindrical insert enclosed by shield for set angle - Google Patents

Abstract

The radiant heater has a cylindrical combustion chamber with a burner at one end, and an insert accommodating the flame inside the chamber and of heat-resistant material, equipped with a radiation shield with apertures. An insulating air space is formed between the casing of the combustion chamber and the insert. The insert (24) is a cylindrical body, over which the shield (26) fits, enclosing it for a set angle. The shield can be of sheet- metal, out of which a number of similar ribs are pressed to form the apertures.

Description

Radiant heater

The invention relates to a radiant heater with a cylindrical Combustion chamber, a burner adjoining it on the face side and a flame receiving, Insert made of a heat-resistant material arranged inside the combustion chamber with an apertured radiation shield, with between the jacket an insulating air space is located between the combustion chamber and the insert.

Such radiant heaters are known under the name of infrared radiators and are used, for example, in winter on construction sites to heat shell structures. In particular, liquid and gaseous fuels come with a fuel Composition into consideration that burns without the formation of harmful Allows smoke gases on the construction site. The fuel burns inside the Insert and the resulting smoke gases pass through the openings in the radiation shield through and thus get into the outer environment of the radiant heater. There you can they give off their amount of heat convectively to the environment, while that during combustion resulting main amount of heat from the radiation shield by radiation to the environment is delivered.

The invention is based on the object of developing the radiant heater so that that the amount of heat to be given off to the environment is increased. In particular, should by enlarging the effective surface of the radiation shield as much as possible large amounts of heat can be transferred specifically to objects to be heated. Included should be able to change the direction of transmission in a simple manner.

According to the invention, this object is achieved in that the insert is designed as a cylinder body on which the radiation shield a one certain circumferential angle corresponding part of the jacket of the cylinder body forms.

The radiation shield is preferably a metal sheet, from which a A large number of similar beads forming the openings are expressed.

Further preferred embodiments of the invention are set out in the claims contain. The scope of the invention extends not only to those claimed Individual features, but also on their combination.

An embodiment of the invention is shown in the drawing and is described in more detail below. They show: FIG. 1 a on a chassis mounted radiant heater in an end view of the combustion chamber; Fig.2 the Radiant heater according to Figure 1 in a shell-side view of the combustion chamber; Fig. 3 a vertical section through the combustion chamber; 4 is a perspective view the combustion chamber; Fig. 5 is a perspective view of the insert; Fig. 6 a grille to be built into the insert; 7 shows a radiation shield to be installed on the insert; 8 shows a section through the radiation shield; 9 shows a perpendicular to the front side the combustion chamber parallel section through the combustion chamber and the one built into it Use with the radiation shield and grille.

The radiant heater consists of a combustion chamber 10, which is designed as a cylindrical Body is mounted on a chassis 11 with a horizontal cylinder axis. Below the combustion chamber 10 is a tank 12 as a storage container for the fuel. The chassis 11 is on one axis with the tank 12 13 with two Wheels 14 arranged and can with the help of a manual handle 15 to his workplace be driven. A stand bracket 16 allows you to set down and stand firmly Radiant heater.

On the two end faces of the combustion chamber 10 are outwardly protruding Bearing pins 17 and 18 are arranged for storage on the chassis 11. The bigger one Bearing pin 18 contains the insertion opening 19 for the burner 20, which is attached to this Front side of the combustion chamber 10 is flanged. Between the burner 20 and the A heat shield 21 is arranged in the combustion chamber 10. On the smaller journal 17, a radial pivot lever 22 is attached, with which the combustion chamber 10 around their Axis can be pivoted.

Between the end walls of the combustion chamber carrying the bearing journals 17 and 18 10, the jacket 23 is arranged on a larger part of the circumference. The smaller one Part of the circumference is left open, so that a built into the combustion chamber 10 here Insert 24 is accessible. The insert 24 is just like the combustion chamber 10, as cylindrical body formed and both are arranged coaxially to each other. Of the Jacket 25 of insert 24 consists of a ceramic fiber felt. It also includes only a larger part of the circumference of the insert 24, while the smaller part is formed by a radiation shield 26. The jacket 23 of the combustion chamber 10 and the jacket 25 of the insert 24 extend on the same circumferential angle, so that the radiation shield 26 of the insert 24 is where the combustion chamber is located 10 is open. The radiation shield 26 is therefore exposed to the outside. On its inside is the radiation screen 26 by a grid 27 against penetration of the in the Insert 24 located flame 28 of the introduced by the burner 20 burning Fuel protected. This grid is a fine-meshed stainless steel mesh with a mesh size of 2 mm x 2 mm and a wire thickness of 1 mm. It acts as a flame arrester.

Between the jacket 25 of the insert 24 and the jacket 23 of the combustion chamber 10 an air space 29 is left free. Since several holes 30 are incorporated into the jacket 23 are, fresh air can enter through these holes 30 in the air space 29 to heat the jacket 25 and exit again through further holes 30 from the air space 29. In this way, the jacket 25 is cooled on its outside and through the Air exiting holes 30 heats the environment by convection.

The main amount of heat is from the radiant heater via the radiation shield 26 submitted. Since this amount of heat depends on the size of the radiating surface, the radiation shield 26 is designed so that its surface is as large as possible is. For this purpose, the radiation shield 26 has many similar beads 31 pushed out. These each form an opening 32 for the passage of the flue gases of the burned fuel.

By pushing out the beads, the surface of the radiation shield becomes 26 not smaller because there is no material for this screen, which is made of sheet metal is removed from there. The surface of the radiation shield 26 is rather through the pressing out of the beads 31 is still enlarged because the curved beads 31 after the process of pushing out have a larger surface than the corresponding ones Metal surfaces before being pushed out. The radiation shield 26 is on its top and underside of baffles 33 attached to the combustion chamber 10 for influencing surrounded by the direction of radiation.

The burner 20 can be a commercially available oil burner or gas burner be. It conveys an oil-air mixture or a gas-air mixture into the insert 24, which burns here with the formation of the flame 28. The ceramic fiber felt of the The jacket 25 of the insert 24 is heated red-hot by the flame 28. the Flame tips beat up on the baffle wall 34 of the insert opposite the burner 20 24. The radiation shield 26 is also heated to red heat and gives off its warmth outwards. The smoke gases produced during combustion are free of harmful ones Substances, they penetrate through the grid 27 and get through the openings 32 of the radiation shield through into the vicinity of the radiant heater. Except the Radiant heat also arrives at the radiation shield 26 that is carried along by the flue gases Heat from the heater to the object to be heated.

On the side of the furnace chamber shell facing away from the radiation screen 2W 10, as a result of the insulating air space 29, only a much smaller one reaches Amount of heat in the environment than at the point of the radiation shield 26. Between the jacket 23 of the combustion chamber 10 and the jacket 25 of the insert 24 are several Spacers 35 for maintaining the insulating air space 29 are arranged.

With the help of the pivot lever 22 can be attached to their bearing journals 17 and 18 mounted combustion chamber 1C rotate about its axis, whereby the radiation shield 26 changed its position. With this change in position, the direction also changes the thermal radiation emanating from the radiation shield 26. The pivotability the combustion chamber is set so that the radiation from its horizontal direction can be rotated by approx. 200 upwards and downwards. In this way a large surface area of the object to be irradiated can be achieved.

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Claims (7)

Patent claims radiant heater with a cylindrical combustion chamber, a burner adjoining it on the face side and a flame receiving, Insert made of a heat-resistant material arranged inside the combustion chamber with an apertured radiation shield, with between the jacket the combustion chamber and the insert have an insulating air space, characterized in that that the insert (24) is designed as a cylindrical body on which the radiation shield (26) a part of the jacket of the cylinder body corresponding to a certain circumferential angle forms. 2. Radiant heater according to claim 1, characterized in that the radiation shield (26) is a sheet of metal from which a large number of similar openings are made (32) forming beads (31) are expressed. 3. Radiant heater according to claims 1 and 2, characterized in that that the insert (24) is arranged concentrically to the combustion chamber (10) and the jacket (23) of the combustion chamber (10) on one of the circumferential angles of the radiation shield (25) corresponding area is recessed. 4. Radiant heater according to claims 1 to 3, characterized in that that in the insert (24) ei the radiation shield (26) covering, as a flame arrester acting grid (27) is arranged. 5. Radiant heater according to claims 1 to 4, characterized in that that the jacket (23) of the combustion chamber (10) several open the air space (29) to the outside Has holes (30). 6. Radiant heater according to claims 1 to 5, characterized in that that bearing journals (17, 18) are arranged on the end faces of the combustion chamber (10), via which the combustion chamber (10) can be pivoted about its axis on a chassis (11) is stored. 7. Radiant heater according to claims 1 to 6, characterized in that that on the smaller bearing pin (17) a radial pivot lever (22) for rotation the combustion chamber (10) is arranged around its axis.