DE2054309A1 - Method of manufacturing a heat exchanger - Google Patents

Description

Patent attorney Patentan ^ ÄS η 3 O Dr. phil. Gerhard Henkel ^Dr · ^r · nat Wolf-Dieter Henkel

757 Baden-Baden Balg Dip 1.-1 ng. Ralf M. Kern

Waidgasse 20 8 Munich 90 TA: (07221) 63427 Eduard-Schmld-Str. 2 T * l »gr.-Adr .: Ellipsoid Badan-Badm Tel .: (0811) 2251 97 T * l «gr.-Adr.i Ellipsoid MOndiwi

Γ Π

Kimura Kooki Kabushlki Kaisha

Osaka, Japan

From 9/16/70 new phone number 66 31 97

- ¹ - *. Nov. t970

Method of manufacturing a heat exchanger

The invention relates to a method of manufacture a heat exchanger with heat radiation plates, which is used as a component for electrical heating devices, electrical cooling devices, Air conditioners, condensers and the like. Can be used.

In order to ensure effective heat dissipation in a heat exchanger, it is generally essential that each individual tube is tightly inserted into a hole in the radiator plate. To this Purpose, various mechanical methods have already been proposed in which, for example, a pipe driven into an undersized bore by means of a striking tool or loosely through each bore The tube inserted into the radiator plate is driven through a mandrel that has one of the inner diameter of the tube has slightly exceeding diameter, so that the tube is expanded from the inside and in this way the If necessary, the tube is firmly seated in the radiator plate is produced. Possesses the first named ancestor

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however, the disadvantage that the pipe surfaces are damaged or can even be deformed, while the second called the disadvantage in the difficulty of the Driving the thorn through the pipe consists, for which a extraordinarily large driving force is required by; a large, a corresponding space requirement possessing, direction must be applied; nevertheless, the pipe can suffer damage such as scratches and cracks, which are extremely disadvantageous for a heat exchanger.

The invention avoids the deficiencies set forth above and disadvantages of the known methods; by creating a improved method of manufacturing a 'heat exchanger.

According to the invention, after the tubes have been brought to the desired size and shape, they are pushed parallel to one another through the desired number of radiator plates. They are then filled with a liquid that is able to expand under the influence of heat, for example with water. The radiator plates with the tubes used in the above-mentioned manner are then heated to a temperature above the boiling point of the liquid contained in the tubes, so that the liquid experiences an increase in volume as a result of evaporation and consequently the tubes expand or widen from the inside , _: and in this way a tight fit of the pipes in the holes in the radiator plates is guaranteed.

More specifically, the invention relates to an ancestor for Manufacture of a heat exchanger with a radiator or absorber plate, which is designed in such a way that it has improved sound absorption capacity owns. To this end, the xverderi with a

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a liquid subject to thermal expansion Filled tubes are heated in an oven to an elevated temperature, so that the tubes as a result of the volume expansion the liquid due to its unlimited evaporation in its formed by the holes in the radiator plates Brackets are expanded.

In the following an embodiment of the invention is explained in more detail with reference to the drawings. Show it :

Fig. 1 is a sectional view of a loosely in a

Drilling of a radiator plate for the heat exchanger tube used,

Fig. 2 is a Fig. 1 similar view of the after

inventive method with a tight fit in the radiator plate inserted heat exchanger tube,

a supervision of a basic unit in front of the Assembly of the elbows and valves,

a supervision of the complete basic unit,

a schematic representation to explain the inventive method,

a plan view of a radiator plate, a section along the line I-I in Fig. 5,

a plan view of another example of a radiator plate and

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Fig. 3a Fig. 3b Fig. 4th Fig. 5 Fig. β Fig. 7th

■ ι-

9 ■ ',

8 shows a section along the line II-II in FIG.

First, the desired number of pipes 1 is inserted loosely in bores 20 of radiator plates 2, which is illustrated in FIG. 1 for a pipe 1 in that the diameter R _{2 of} the bore 20 is greater than the outer diameter of the pipe 1 After insertion, the ends of the tubes 1 are connected to one another by elbows 5, so that a single meandering pipe results, the two ends 10 and 11 of which remain open to allow a heat exchanger medium to enter and exit. The knee pieces 3 are placed on the tubes 1 and, if necessary, welded to them. In this way, a basic unit A of a heat exchanger is created, on which according to FIG. ya two more valves 12-j and 122 are attached, which are required for the following process steps and are finally removed again after the process has been carried out «

It goes without saying that there are various modifications to the basic unit A possible without departing from the scope of the invention. For example, the tubes can be considerably thinner and, if necessary consist of so-called hairpin tubes to which radiator plates are attached. Before connecting the • Elbows should preferably use the tubes 1 as shown in Fig. Yes be immersed in a trichlorethylene bath 4 to all Remove grease residues from the inner and outer surfaces. ■

Then the valve 12 .. is first closed and "a

\ _X ' liquid which would increase a volume under the action of heat

^r *? learns how water, through the valve 12 _O by means of a Hoöh-

- ^; druok pump P under a pressure of about 25 kg / cm into the

\ - Pipes 1 introduced. The pump P is not used to move the pipes • I - 5 -

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to expand under the outward pressure, but to prevent the presence of unwanted bubbles which cause incomplete expansion of the volume of the liquid. At this point the pipe 1 is always still loosely set in the bore 20 of the radiator plate 2.

The basic unit A formed in this way, in which the water W is enclosed in airtight and liquid-tight manner in the pipes 1, is then passed through a hot air oven 5 and there for about half an hour to a temperature of about 155-240 ° C heated. The temperature generated in the furnace and the required process time depend on the size and thickness of the tubes; For example, the base unit A was a copper tube of 0.4 mm wall thickness and about 9 * 5 mm diameter in the case successfully treated by half-hour heating in an oven at a maximum temperature of 25O ⁰ C. In the furnace 5, the entire unit A is heated as a whole, the pipes 1 being effectively heated due to the good thermal conductivity properties of the radiator plates 2, so that the water W enclosed in them is thoroughly and uniformly heated.

When the temperature of the water W reaches and exceeds the boiling point, the water turns into saturated steam by evaporation and with considerable increase in volume, finally being converted from dry steam to superheated steam, which is followed by a limited increase in volume as long as the heating continues . The inner surfaces of the pipes 1 are subjected to the outwardly acting pressure generated by the increase in volume of the water V /, whereby an intimate contact of the pipes -1 with the circumference of the bores PX) ensures and in this way a tight fit of the pipes 1 in the holes 20

is produced. ^

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BATH ORIGINAL

The basic unit A, the tubes 1 of which are fixed in the radiator plates, is then challenged from the hot air oven, 5., and passed through a cooling zone 6, into which cold air is blown from the underside, gradually around the unit to cool, then the valves 12 ^ and 12 _{2 are opened} to expel the water W from the pipes 1, the water being replaced by compressed air of about 25 kg / cm ² supplied by a compressed air bottle 7. Finally, the unit A is passed through a water container 8, in which it is examined for possible leaks. After checking for leaks, the valves 12 _t and 12 o are removed and the unit A is adapted and treated at a final treatment station 9 in accordance with the device in which it is to be installed.

5 and 6, the radiator plates 2 are each provided with roughly triangular bulges 1j5, which are formed in a uniform arrangement between the bores 20, see indv These bulges 1J are aligned with their upper parts in the direction in which the hot - or cold air is blown in, and are provided on their underside with a passage of the air allowing slots 14; which has the advantages of enlarging the heat dissipation area of the radiator plate and considerably enhancing its heat dissipation ability, so that the water W contained in the pipes 1 is heated with high efficiency in a short period of time. This special construction of the radiator plates 2 is advantageous in a heat exchanger since, as a result of the separating and directing effect of the triangular bulges 13, a desirable swirling air flow is generated between the radiator plates 2. .

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7 and 8 is a modified embodiment a radiator plate 2 shown, in which semicircular bulges 15 are provided, which through Grooves 16 are interconnected. This increases the heat dissipation area and the ability ensures that hot or cold air is captured from all directions, which significantly improves heat exchange will. In particular because of the arrangement of the grooves, the individual radiator plates 2 are capable of one in themselves Form closed heat exchangers with large air exchange between the adjacent plates, increasing the heat exchange efficiency is increased to double. These bulges also cause a considerable increase the stiffness of the radiator panels 2.

Obviously, in the method according to the invention described above, the loosely in the bores of the Radiator panels inserted tubes through thermal volume expansion the liquid contained in its interior expanded or expanded, so that finally a solid Seat of the pipes in the holes is guaranteed. In particular, it is advantageous here that the liquid uninterruptedly heated to a temperature above its boiling point and converted into saturated steam, in which a limited volume expansion is possible, what is a temperature increase follows. In this way, regardless of the diameter and wall thickness, everyone can any pipe type can be expanded evenly over its entire length, which is particularly important for small pipes Diameter is advantageous, which are difficult to expand in a conventional manner. The pipes are capable of over

x)
the radiator plates at the points where they are in contact with the pipes have a greatly improved heat absorption capacity due to their special design,

- 8 - to absorb a large amount of heat using the radiator panels

in order to promote heat dissipation at these points.) : As a result, the relevant parts of the pipes ... may be subject to physical changes, which ensures more effective expansion than at other points not in contact with the plates. In this way, the undesired volume expansion of the parts of the pipes not in contact with the radiator plates is successfully avoided, while the parts in contact with the plates are effectively expanded while ensuring a tight fit.

In the manner described, therefore, can be simply and Safe and due to the use of ordinary ... water produce an extremely effective heat exchanger as an expansion medium with lower manufacturing costs.

In summary, the invention thus provides a method for producing a heat-radiating radiator panel having heat exchanger, the tubes of which are airtight in their interior by thermal evaporation for this purpose trapped liquid are expanded so that the tubes are snugly fitted into those provided in the radiator panels Holes are used. The radiator panels are preferably indented and slotted Provided grooves.

BATH

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Claims (1)

-Q- P ate η ta η v> ρ r ϋ ehe A method of making a heat exchanger, thereby characterized that initially several in the desired Shape and size brought to the desired tubes in a radiator plate provided with appropriate holes are used, then the pipes with a Liquid are filled, which is able to expand in volume under the influence of heat, then the tubes including the plate in an oven to be heated to an elevated temperature and this is a thermal Volume expansion of the liquid is caused and the tubes are expanded or expanded from their inside. are expanded until their circumference is in firm contact with the holes formed in the radiator plate and finally several plates are put together to form a heat exchanger unit, P. The method according to claim 1, characterized in that the tubes are inserted into a plate provided with bulges and slotted hats. 3. The method according to claim 1 or 2, characterized in that that the pipes loosely inserted into the radiator plate are connected to one another by elbows so that they form a single, meandering pipeline, the two open ends of which are each provided with a valve, 4. The method according to claim 1, 2 or 3, characterized in that that the liquid in order to prevent the presence of undesirable bubbles inside the tubes under high Pressure is pumped into the pipes. _ 10 - 109824/1073 BAD OFHGiNAU - ίο - 5. The method according to any one of the preceding claims, characterized in that the tubes including; 'the plate are conveyed through an oven, whose Inlet and outlet has a lower temperature than its central section, so that through the furnace pipes conveyed through it experience gradual temperature changes. P 6. The method according to any one of claims j5-5, characterized characterized that the pipes before connecting the elbows for the purpose of removing any grease residues be immersed in a trichlorethylene bath from the inside and outside. 7. The method according to any one of the preceding claims; characterized in that after the treatment of the; Heat exchanger units in the furnace and before their transfer ':. to a water container, the liquid contained in the pipes to make it easier to examine for possible leaks in the water. Compressed air is replaced. 109824/1073