DE816995C - Heat exchanger - Google Patents

Description

The job is to get one. Heat exchanger, depending on its Intended use Cooler, heater, condenser, etc. is called to be built in such a way that ei when working with hot substances, e.g. B. sulfuric acid, at a temperature of 480 'C remains operationally reliable and in the event of damage at the lowest possible cost and for a short time Time expenditure- is reusable.

According to the invention, the object is achieved in that the with the parts of the heat exchanger that come into contact with hot agents, such as acid interchangeable items, e.g. B. from pipes, are assembled, namely such that the parts are divided into transverse to the longitudinal axis and their ends conical or spherically designed to be nested, the parts by variable length Pressing elements, e.g. B. be pressed against each other by resilient hanging covers. In an expedient embodiment, pipes made of acid-proof stainless steel parts, preferably stainless steel castings into consideration, the z. B. with as long as possible Conical surface plugged into one another and pressed against one another by strong spring forces with a press fit be that the items are closely connected without being melted down to have to. This ensures that the built-in parts in heat exchangers expand or contract with different thermal loads without stress occurring in the metal parts. Implementation of the Pipes through a wall part of the heat exchanger can be gland type using of acid-proof gland packing, such as lead, while in the other Wall part dome-shaped recesses with openings can be arranged in insert the spherically rounded pipe heads with a snug fit, so that also pivoting the pipes is possible. The drawing shows an embodiment of the subject matter of the invention shown. It shows Fig. I a view into an open heat exchanger, Fig. 2 shows a cross section through a heat exchanger, FIG. 3 shows a partial cross section in enlarged scale, Fig. 4 shows a dome-shaped connection point.

The heat exchanger according to the invention consists of a container io (Fig. 2) with perforated base 1 and perforated cover 2. In the container base with the help of stuffing boxes 3, the stuffing box flanges against an acid-proof Stuffing box packing, for example lead 4, are pressed on, pipes 5 made of cast stainless steel guided. The pipes 5 are divided into pipe sections. The connection points of the Pipe sections are provided with a tight fit, e.g. B. so that conical sealing surfaces 6 are formed, which are in corresponding conical sealing surfaces of the attached Insert pipes. Some pipe sections carry a ring-like projection 8 against the the loose flange ring 9 is pressed on by means of the spring 14. The cover 2 can with 'Dome-like perforations 15 (FIG. 4) are provided into which the spherically rounded heads of the pipes ii are tight and can nevertheless be pivoted insert. Coupling elements can also be attached to the pipe connection points will. On the cover 2, the intermediate ceiling is made up of several by means of the tensioning screws 12 circular segment-like cutouts 13 appended. The false ceiling serves as a wing for the springs 14, which the flange ring 9 against the ring 8 of the pipe sections 5 and so that the tubes 5 and ii press together tightly. The formation of the false ceiling 113 of several parts aims that when removing the capacitor parts of the same can be solved. Additional ceilings can be attached to the false ceiling 13. The effect of the formation of heat exchanger internals designed according to the invention is that particularly brittle, but acid-resistant installation pipes 5, which are difficult can be rolled in, can be used and are corresponding in their entire length the temperatures can move freely without becoming leaky.

Fig. 4 shows a dome-shaped connection head, in which an intermediate ceiling 13 for guiding the connection point 6 of the pipe sections serves and the spring 14 is supported on the container bottom i.

Claims (5)

PATENT CLAIMS: i. Heat exchanger with tubes arranged in a container or similar shaped heat exchange elements, characterized in that the heat exchange elements, preferably tubes (6), are divided in the transverse direction and at their ends are conical or dome-shaped in such a way that they can be inserted into one another. B. springs (14) which press the nested parts of the heat exchange elements against each other. 2. Heat exchanger after Claim i, characterized in that the nested pipe parts (6) through Supporting ceilings (13) suspended in the heat exchanger, preferably with an intermediate layer compressed by resilient pressure elements (14) or the use of resilient support covers will. 3. Heat exchanger according to claim i and 2, characterized in that the False ceilings (13) are divided. 4. Heat exchanger according to claim i to 3, characterized in that stuffing boxes (3) with acid-proof packings, e.g. B. soft lead, seal the heat exchange tubes (6) against perforations in the container wall. 5. Heat exchanger according to claims i @ to 4, characterized in that the pipe parts inserted one inside the other (6) are made of cast stainless steel.