DE1927605A1 - Weather cooler for mining, especially face cooler - Google Patents

Description

1. Dr. Peter Hermanns, 435 Recklinghausen, im Stübberberg 21 2. Hans Henting, 433 Mü # lheim / Ruhr, Schultenhofstraße 18 "Weather cooler for mining, in particular face cooler "The invention relates to a weather cooler for the Mining, in particular a face cooler with several plates or sheets which pipes carrying cooling water are attached, in particular soldered on.

Such coolers are devices that are used in refrigeration machines generated cold should be transferred to the weather of the mine. The weather is getting through Touching the cold surfaces is cooled while flowing through the pipes cold water absorbs heat from the weather. For the required high cooling performance are not only good thermal properties, i.e. not only large heat transfer coefficients Prerequisite, a sufficiently large amount of air must also be conveyed through the cooler can be. In practice, the amount of air essentially depends on the flow resistance away.

A face part cooler is already known, the vertical one Plates or sheets made of copper are used, and copper pipes are soldered on on both sides are. The tube of each plate consists of one piece. The pipe is attached so that the water carried in it on one side of the plate against the direction of flow the air, on the other hand with the direction of flow of the air and by a half Division is shifted. The plates are otherwise flat.

The advantage of such a cooler is that it can be calibrated with it can achieve very high heat transfer coefficients, that is, its thermal engineering Properties are particularly good.

The disadvantage of such a fan is that it has a generates relatively high air resistance.

However, it is already known in the so-called strip coolers to flatten the pipes at the joints. Use the strip cooler serpentine curved and predominantly horizontally guided pipes, on which regular Spaced vertical sheet metal strips are placed.

The invention particularly applies to the first-mentioned type of faceplate cooler improve by lowering their air resistance, although they are generally an improvement which aims at flow resistance in weather coolers, especially longwall coolers.

According to the invention, this problem is solved in that the plates are angled at the joints of the pipes and the plates in the direction of flow of the In the weather it is wavy to zigzag get lost.

It has been found that this is easy to implement Measures that can reduce the resistance to anger very much. That's understandable though one realizes the wetness of the plates, sheets and pipes that occurs in practice; It's s.B. It is customary to give the panels a wall thickness of 1 mm and to use pipes, which have a diameter of 10 mm. A plate with a pipe attached then has a total thickness of 21 mm.

With the invention, this dimension can be reduced to at least 11 mm.

Tests have shown that the thermal engineering Properties, especially the heat transfer coefficient, are not impaired. What this is due to has not yet been fully clarified.

If one imagines a tangent plane on each side of each plate, so the following training is appropriate: the pipe envelope lines, the connection points opposite the tubes arranged on the side of the tangential plane and the Vertex lines of the bends at the junctures of the opposite one Side fastened pipes, lie within the tangential plane.

As is known per se, the pipes can be flattened at the connection points will; then the lateral surfaces created by the flats should be in the relevant tangent planes lie.

The invention is described below for a better understanding of its features explained in more detail; 1 shows a plate of a face part cooler according to the invention in elevation and FIG. 2 a plan view of two of these plates.

The direction of flow of the weather is indicated by the arrows. 1 specified. In the face part cooler, generally designated 2, there are several plates or sheets 3 on which cooling water pipes 4 are attached ..

As shown in Fig. 1, each plate has a tube 4. You enter water at 5 and initially flows against the direction of flow of the air on one side the plate to then on the other side - offset by one division - with the Direction of flow to exit again at 6.

Figure 2 shows that the plates at the connection points 7 of the pipes 4 are angled. This results in the direction of flow seen from the weather a generally wavy to zigzag shape of the plates.

If one thinks that there is a tangential plane 8, eo on the plate side 3a the cooler in the illustrated embodiment is designed as follows: The Pipe jacket lines or surfaces 9, the connection point 7 of the on the side 3a arranged opposite tubes lie with the apex lines 10 of the developments tinkered with the pre-tying 7 the one on the opposite side 3b fastened pipes in the tangential plane 8.

Conversely, the following applies: The pipe jacket surfaces or lines 12, the the connection points 7 of the pipes 7b arranged on the side 3b are opposite, are located in the tangential plane 13, in which the apex lines 14 of the bends are at the connection points 7 of the tubes 7a.

In the illustrated embodiment, the pipes are on the connection atelles 7 flattened, e.g. flattened. The flattening form partial surface areas, which lie in the relevant tangential planes 8 and 13 as indicated.

Patent claims:

Claims (3)

Claims 1. Wetterkirhler, in particular face cooler with several plates or sheets on which cooling water pipes are attached, in particular are soldered so that the plates (3) at the connection points (7) of the tubes (4) are angled and the plates in The direction of flow (1) of the weather is wavy to zigzag. 2. Weather cooler according to claim 1, d a dur c h g e -k e n n t e i c h n e t that for each plate on each of its sides a tangential plane (8, 13) the Rohrinantellinien or surfaces (9, 12), which the Yerbindungsstellen (7) of tubes arranged on this side are opposite and the vertex lines (Io, 14) the bends at the connection points on the opposite side contains attached pipes. 3. Weather cooler according to claims 1 and 2, since d u r c h g e k e n n 8 e i C h n e t that the pipes, as is known per se, at the connection points are abnacht and their surface areas created by the flattening in the relevant tangential plane.