DE1501449A1 - Heat exchanger - Google Patents

Description

Aktiebolaget CTC, Gothenburg C / Sweden Heat exchanger

The invention relates to a heat exchanger of the genre »in which the one medium through sohraubea- or spirally bound, telescopically inserted drill hole is directed "the tob other medium in the ge" genatrom parallel sur Splraiaobse to be ^ tfspUlt »

The purpose of the invention is to create a heat exchanger of this kind to create the middle of a small Ansahi standard elements for different services in such a way · » bar is that the heat transfer ratio of the two Media, regardless of τοη the Ansahi and size of the susamaengebauten Heat exchanger forming Jtiementt, essentially remains unchanged

BATH ORIGINAL 909844/0613
New Umeriaoen iArt.7iÄ

The orf indungsgeaaita heat exchanger is essentially characterized by the fact that the Bohrtoll from ivei or several parallel-held drill spiral groups glelchor Height and bit la essentially the same Kohrlänge and equal distribution of the drilling in a radial plane the group is built up "in such a way" that the relationship between the Flow of the two media for all groups remains essentially the same and an even distribution of the two media across the groups, regardless of the Aniahl of la ii & raeaustauBoher included aohnpirekc groups, get vlrd.

.. The invention is in the following with the help of the attached Drawings described in more detail «£ s seigent

Fig. 1 a vertical Sonitt step through a

Execution of a harmonic exchange according to the invention »

Flg. 2 the Varaeaustauschher In plan view with the cover removed and

FIg * 5 to 7 vertical cuts through tiered execution area de "eriindungsgesAßea Uarmeaustausohers"

4/0613 SAD ORIQiNAL

_3_ 150U49

Among other things, a hollow "aa upper end made" sjlindlschen Core bodies 10 are three metal tubes 11, 12 and 13 old increasing the helical «dl» varae transfer area Ribs wound in three different layers, with the drill soles falling into an outer layer in the intermediate reams of the adjacent bores of the underlying layer rest "in such a way" that there is a radial cross-section through the This is how · drilling unit dl · drilling · lie in triangular distribution. The diameter of the core body 10 is equal to that radial thickness of those ringslilnderföralgen KInholt chosen « dl · is formed by dl · drilling spirals 11, 12 and 13 wound on one another. Among other things, the drill spiral group 11, 12, is a thin-walled sheet metal / Bader 14 pushed and among other things this are three "bands" in three layers wound «each from swel drilling 15a, 15b bsw. 16a, 16b or 17a «17b exist. Ua dl soait formed swelte spiral * pipe group »within which dl · Bohr · also in triangular distribution lie "is a thin-walled sheet metal loader 18 postponed ”and among other things, three“ bands ”are wound in the same way, each consisting of three bores 19a, 19b, 19c bKw. 20a «20b» 2Oo bsv. 21a «21b» 21c exist. Including this third one Group of spiral tubes is pushed on a bleed cylinder 22 "

909844/0613 .4 «.

BATH ORIGINAL

and around this three "ribbons" are wound, each made of Animal drilling 23a, 23b, 23c, 23d etc. 24a, 24b, 24c, 24d etc. 25a, 25b, 25c, 25d exist. The in the manner described preserved Bohrspwalareinheltett are in the drawings old X, XI, XII or * IV.

The animals nested groups I, II, IXI and IV tone splr & l ^ e sinuous bores are In elnea e / llndrlsohen Container 30 attached, which holds the outermost Bohrsjto & ferigruppe IY close uasoh. eat. The strokes of the vessel 30 is greater than that of the same high groups τοη Bohrspiralen, whereby a free Baua 31 swisohen the lid of the container and the Drill spirals, and another free Baua 32 svischec den Bohrspiralea and the bottom of the vessel are gateways »The one Hedlua, s * B · the heat-releasing Medlua, enters the Baua through the Eohrstutsen 33 and flows through the spiral groups down into the collecting chamber 32 located below, whereupon it continues to flow through the outlet mareen 34 · By the fact that la Radial cross-section through the different groups the drill in exactly the same way within all groups! are, the Kediua will obviously be about the Tertellen groups in such a way that its axial flow velocity in all groups essentially the same becomes

909844/0613 ^ nmiiir · * .- j ^

s / w

The drilling spirals of each group are mutually parallel via drilling branches 35 and 36 between an inlet 37 and an outlet 36 through the other medium, ie

Characterized 'in that the diameter of the core body 10 equal to the radial thickness of the different drilling units has been selected "is UQT adult, · diameter D of the first unit obviously equal de» swelfachen diameter of Kernkurpers "and old each Sichelt increases the mid · Diameter üb an amount equal to of twice the radial thickness of the kiahoite, that is to say, the amount D, an · D% r mean diameter of the respective Hohrsplralenelnhelten I _t II »III» IY is therefore D for the first unit. 2D for the svelte £ nit "3D door the third unit and AD fOr the fourth üinheit. The older long of course increases with every boring turn in the same proportion, while the seed tube length of each spiral decreases the boring section of each "band" accordingly. As a consequence of this, the bitter drilling length of all the drilling spicals becomes the same. This means "that in all Bohrsplralenelnhoiten the Bohr biw. the middle layer drills the same disturbance

90 98AA / 0613 BAD ORIGINAL

have resistance. Within each group, the innermost one cries Eohrspirale a smaller one and the outermost spiral a larger one Pipe length than that of the intermediate spiral, but the lower * Differences are only worth mentioning in the innermost unit and generally decrease the greater the unit The tone of the axis is removed.Ia large and gansen therefore applies * that the flow resistance through the parallel-connected Eohrspiraiea remains the same for each unit, so that the wäraeauinehaende medium is ia large and gansen over eäatiiohe epirai wounded fiohre equal divided

Pa ₉ as described above _v the flow rate of both the heat-emitting Kediuu and the väraeauinehaenden Hediuas within all groups of spiral spirals is approximately the same "while a% r Durohlaufquerskonitt is proportional to the aittior diameter of the respective group", it can be seen without further ado, that when the power is beseiohnet old £ aer the axis aa closest group X τοη splralgewundenea drilling, is dl · power of the group II 2 £, the W, and dl · group IY is the group III £ 4. The total output of a single animal unit containing all animal units is 10% file size * 3,

9 0 9 8 A A / 0 6 1 3 BAD ORIGINAL

IOUl 4 A a

like Bum by building the heat exchanger from a small Aniahl unit, t.B. only from units I and III,

= 4E get a heat exchanger of the smaller capacity £ ♦ ^ / Has. In this frlie the cylindrical vessel is 30 old small rea diameter conical, so that also beer the vessel the outermost lnboit loosens tightly. Furthermore 1st dor free ring » fursdge taua g between the innermost and outermost spirals caught up at the top by a wall 39, so that the worm-emitting Modiua only past the respective pipe units and through etröaea can "

ϊλ is not necessary that oan _v as in Flg. 1 and 3, each drilling unit has three layers of twisted drills or "fiohrbändem". Flg. 4 seigt in which for each unit of the Drill 1st arranged in only one einsige layer an embodiment, and FIG · 5 leigt a different execution, in which the Drill are wound in swel layers "Om can be also embodiments think in which each The unit has more than three layers of hollow tubes. "Even with these designs, the first unit attr bitter diameter is twice the inner diameter, and" with each unit the mean diameter increases.

09844/0613 "-0-

ORfGfNAL

Better to double the inner diameter, and with each one Unit, the mean diameter increases, among other things, the value of a unit. So, for every external unit, the power is quite a multiple of the power of Utah's innermost U, and it is therefore due to an appropriate combination of Spiral tube units possible, no heat exchangers build in which the performance with uniform Intervals from a minimum lead represented by the innermost unit to one from the entirety of the units the maximum power shown increases

There is also no need for the drill spiral units each made of circular Hippenpipes, whereby the tilting the drilling in the desired mutual distances hold, but the units can be built much from simple drilling. The fig. 6 shows an embodiment where simple, elliptical in cross-section wide-IqIU (J have been helically wound · In this However, special spacers are required between the drilling loops in order to ensure that the cleaning is carried out Drilling the desired channel for the one flowing outside the drilling Kedium to be kept open

9098 A4 / 06 13 ^BAu

A heat exchanger constructed according to the invention can advantageously be used as a Speloher heat exchanger. Fig. 7 shows a hot water storage tank 40, dea hot water through the conduit 41 is fed to wiihrend cooled water through the nozzle 42 flows · top in memory 1st of the cold exchanger provided "That the ßohrepiraleneinheiten containing guwi 36 1st counter top fully open and down to a Downpipe 43 connected, so that the water area bottom ends in the seed.When the water is drained from the drill spirals of the heat exchanger *, the hot water is cooled down in the vessel 36, whereby a drainage through the downpipe occurs, so that the cooled water sinks to the bottom of the sparing vessel , while fresh hot water flows from the upper part of the storage tank but the band of the Ο ^ ίύ & ύ * 36 into this and "down through it.

90 9 8 A4 / 06 13

BATH ORIGINAL

Claims (8)

1501U9 Z / Lo JIO A 52 791 Ia / 17f Aktiebolaget CTC (new) patent claims t 1. Heat exchangers, in which one medium is pushed into one another like a telescope through a helical spiral Drill is headed »the tob other medium in Gegenetroa be washed around parallel to the Spiralachee, characterized in that that the drilling part consists of two or more parallel drilling spiral groups (I; II; III; IV) of the same height and not with essentially the same drilling length and the same distribution the drill is built in a radial plane through the group, such that the ratio of the flow resistances of the two media is essentially the same for all groups remains and an even distribution of the two media but the groups (I; II; III; IV), regardless of the number of im Heat exchanger containing spiral groups, obtained vird. 909844/0613
iMeuo ""'« A4 2. Heat exchanger according to claim 1, characterized in that that the innermost group (I) τοη spiral-wound drilling (11, 12, 15) has a mean diameter (D) that is double as large as the inner diameter (D / 2) of group (I), so that the mean diameter of the remaining groups (II; III j IV) an uninterrupted series τοη whole multiples of the mean diameter (D) of the innermost group (I) and thus the performances a continuous series τοη gansen represent multiples of the performance of the innermost group (I). 3 «heat exchanger according to claim 2, characterized in that each layer τοη drilling spirals of a certain group (II, III; IV) is composed of concurrent bores (11, 12, 13; 13, 16, 17; 19, 20, 21; 23, 24, 23) of a number (n), that of the ratio (nD / D) of the mean diameter CnD) of Group is equal to the mean diameter (D) of the innermost group (I). 4 heat exchanger according to one of claims 1 to 3, characterized in that each drilling group (I; II; III; IV) two or more layers τοη telescopically inserted into one another, spiral-wound drilling (11, 12, 13; ··· 23, 24, 23) comprises. -3- 909844/0613 ^ ORIGINAL 1501U9 -> - /1 5. Heat exchanger according to claim 4, characterized in that that the pipe turns of an outer spiral (e.g. 25) in the interstices of the pipe turns of an underlying spiral Hohrepirale (see B. 24) rest in such a way that in a radial cross-section the drilling unit creates a triangular distribution of the drilling Foolish. 6. Heat exchanger according to one of claims V to 5 » characterized in that the drill (11, 12, 13; ... 23, 24, 25) with one or more, preferably helical rer-1 extending Outer ribs are formed which the drilling in certain to form desired flow channels for the external medium keep mutual distances .. 7. Heat exchanger according to one of claims 1 to 6, characterized in that each group (1; II; III; IV) τοη spirally wound Drilling (11, 12, 13; ... 23, 24 · 25) is inserted into a tight cylinder (14; 18, 22; 30) which, in the assembled heat exchanger, has a medium that conducts the surrounding fluid Partition between adjacent groups τοη spiral-wound Drilling forms. -4- 909844/0613 • BATH OWGiWAL 150H49 -V 8. A heat exchanger according to claim 7, in which one or more of the spiral tube groups of the continuous row are omitted, characterized in that the ring-shaped tree between two spaced groups (I; III) τοη 8 spiral-wound tubes through a second, the inner group enclosing cylinder is demarcated and closed in a vertical direction by a transverse wall (Fig. 3) 9098AA / 0613 ν.