DE1090351B - Explosion-proof electrical space heater - Google Patents

Description

Explosion Proof Electrical Space Heater The invention relates to an explosion-proof electrical space heater. With such a device Care must be taken that none of the standing parts can assume a higher temperature than the present Operating and safety conditions. Those parts that are in operation exceed this temperature must be encapsulated in a pressure-tight manner. Explosion-proof electric space heaters are previously known in two embodiments: When One type is -the electrical heating element in a tube with relative large diameter housed. The surface of the tube is coiled by and mostly warm, shrunk-on transverse ribs enlarged. The inside of the tubular heater is designed as a pressure-tight space. The power supply lines must also be pressure-proof be. The disadvantage of this design is the considerable cost of materials for -the : flameproof enclosure, the relatively large expansion: horizontal during operation lying tubular heating element in the longitudinal direction as well as the large, approximately horizontal Dust deposit surfaces and finally. who have favourited poor cleaning ability.

Another embodiment is a liquid-filled radiator. The considerable heat capacity of the liquid filling prevents rapid call heating of the room, and the liquid filling increases the technical effort for the radiator. In the event of a lack of fluids, e.g. due to urinary leakage, there is no Explosion protection is more available. There must therefore be a special safety device z. B. an external liquid level glass: as and an overpressure safety device are provided be. These two safety devices must be continuously maintained.

It is also known, rod-shaped electrical heating elements with cup-shaped To crimp sheet metal strips, -where the ends of the sheet metal strips that meet one another spot-welded, and the outer parts of the sheet metal strips are bent apart radially will. However, these radiators are not explosion-proof because of the heat transfer the pressed-on sheet metal strips are not with certainty permanently low and even are, so that local overheating of the heating element on the surface of the heating element can arise, which its use in an explosive environment is impossible power.

It is also known: the rod-shaped heating elements in a body Cast in light metal, which is provided with transverse or longitudinal ribs on the outside. The cost of materials for each heating surface unit is considerable as a result. According to the invention address these shortcomings in an explosion-proof electrical space heater In the operating position, the tubular heating element runs vertically, against the shell-shaped bent Longitudinal ribs, preferably made of sheet iron, are pressed by screwing through the combination of the following features eliminated in a surprisingly simple way: a) the parallel longitudinal ribs are in their middle, the vertical ones Part of the meandering tubular heating element that touches surfaces and become flat arranged in pairs from both sides of the vertical part of the tubular heater, at right angles to these bolts and nuts, only touching along a surface line, pressed against the tubular heater; b) the connection ends of the heating coil are pressure-resistant arranged in the jacket tube, and the helix has meander arcs in the area of the upper a greater slope compared to its course - in the vertical part of the tubular heater, @ And / or the jacket pipe is provided with additional ribs pushed on in this area; c) The space heater, which has features a) and b), is only after zinc coating applied by immersion during assembly.

The combination of these features aims to reduce the risk of explosion by avoiding overheating on the space heater by applying a permanent, reliable thermal contact due to the somewhat elastic bracing of tubular heating elements and flat rib parts with linear contact under high surface pressure and the subsequently applied, the interstices of the linear contact Filling galvanizing is produced, the convection by turbulence the one on the vertical parts of the tubular heater soaring Air is improved due to the transverse bolts and nuts, while on the other hand the heating power in the area of the overheating-endangered transition arcs of the Pressure-resistant jacket pipe containing heating coil by increasing the heating coil pitch is reduced.

Further improvements of the subject matter of the invention form .the features- of claims 2 to 6.

The invention may be shown schematically on the basis of the figures Exemplary embodiment are illustrated. It shows Fig. 1 the lower and upper Part of a space heater according to the invention in longitudinal section, FIG. 2 is a partial view to the same space heater in horizontal section, Fig. 3 is a side view, partially section, FIG. 4 shows an enlarged partial section in the plane IV-IV of FIG. 3.

The heating coil 1 of the tubular heating element 2 has in the upper less well-cooled zone, especially in the area of the transition arches, a larger one Slope on than in the rest of the parts. The transition arches are attached with small ones Additional ribs 3 provided, while the heating power is mainly through the bridge-shaped bent longitudinal ribs 4 (Fig. 4) is transferred, the pairs by free in ascending air flow lying Ouerbolzen 5 are pressed against the heating pipes 2. Approximately in the middle of the radiator, the heating pipe 2 is in a known per se Temperature control switch with flameproof housing 6 introduced and inside for manufacture the electrical connection interrupted, the flameproof termination alone in the implementation 7, 8 of the pipe ends in the lower part of the controller housing 6 takes place. The control switch 10 is led out of the housing 6 with its pressure-tight Temperature sensor 11 between the large area of the adjacent cooling fins 4 (Fig. 4) screwed retaining plates 12 guided and clamped by the screw bolt 13, so: that a quick and reliable heat transfer is ensured here too. Below, so in the coldest zone, the two-part is through the screw bolts 14 control box that is held together and does not need to be pressure-resistant and its cover as well as the upper part of the housing 6 and the protective grille 15 (Fig. 3) has only inclined surfaces in order to make dust deposits more difficult.

Pressure-tight seals are only required at the points 8 of the controller housing 6 at the connection ends 17 of the tubular heating element 2, which are located in the switch box 16.

Claims (6)

PATENT CLAIMS: 1. Explosion-proof electrical space heater - with tubular heating elements running vertically in the operating position, against which longitudinal ribs bent in the shape of a shell, preferably made of sheet iron, are pressed by screwing, characterized by the combination of the following features a) the longitudinal ribs arranged in parallel are in their middle, -the vertical Part of the meandering tubular heater touching surfaces are flat and are pressed in pairs by bolts and nuts arranged on both sides of the vertical part of the tubular heater and running transversely to this, only touching along a surface line, pressed against the tubular heater; b) the connecting ends of the heating coil are arranged pressure-tight in the jacket tube, and the coil has a greater gradient in the area of the upper meander arches compared to its course in the vertical part of the tubular heater, and / or .das jacket tube is provided with additional ribs pushed on in this area; c) The space heater with features a) and b) is provided with a zinc coating which is only applied by immersion after it has been installed. 2. Space heater according to claim 1, characterized by painting on the zinc coating. 3. Space heater according to claim 1 or 2, characterized by such an angling and overlapping of the outer ends the longitudinal ribs that they have cuboid adjacent air ducts of about the same dimensions. 4. Space heater according to one of the preceding claims, characterized in that the gradient of the heating coil differs from that in the operating position lower end towards the upper end of the vertical part of the tubular heater increases in such a way that an approximately constant operating temperature over the sets the effective length of the tubular heater. 5. Space heater with built-in temperature switch -according to one of the preceding claims, characterized in that the controller housing between two facing ribs of two each a vertical part: des Pairs of ribs enclosing tubular heating elements and also running vertically is arranged and screwed between a large area -with the adjacent longitudinal ribs Metal sheets clamped by means of a clamping bolt connecting the adjacent longitudinal ribs is. 6. Space heater according to claim 5, in which the heating coil is looped into the controller is, characterized in that - the jacket pipe of the tubular heater is pressure-resistant is inserted into the controller housing. Publications considered: German -Patent specifications No. 816 282, 827 147, 10 195, 913 334, 925 783. -