DE2166534A1 - RECIRCULATING HEAT PUMP - Google Patents

Description

Dr. W. PFEIFFER

PATENT ADVOCATE

8 MONO ':; j 40

ß'Re-f-. 25th
TELEPHONE 3.5626

Principia-Stiftuhg for the promotion of inventions and

of the sciences

Glarus / Switzerland Circulating heat pump

The invention relates to a circulating heat pump in which two fan rotors designed as heat exchangers and a compression refrigeration machine form a jointly mounted rotating unit in which the two heat exchangers are connected to each other via a common hub and an auxiliary heat exchanger in the hub area is provided which has two heat exchanger elements that form the internal circuits of the fan rotors separate from each other and each of which is assigned to the circuit of a circulating fan heat exchanger is, wherein the channel systems forming the inner heat exchanger circuits contain a flowable heat carrier.

Circulating heat exchangers are known per se; Also known are heat pumps, which consist of two circulating heat exchangers and a rotating compressor. The three elements form a circulating system, its a heat exchanger is arranged within the room to be air-conditioned and via a hole in the building

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wall penetrating hub area with the second heat exchanger arranged on the outside of the building forms a rotating unit.

This going back to this same inventor, in the Offenlegungsschrift 2 023 601 claimed device from a hermetically sealed unit to be mounted on the outside wall of the building, besbehend from one rotating heat exchanger, an auxiliary heat exchanger and the compressor.

The present invention aims at an efficient heat exchange in the auxiliary heat exchanger.

For this purpose, the invention provides that the heat transfer medium in at least one of the channel systems from the gaseous and liquid phase of a boiling heat transfer fluid consists.

Since the refrigerant circuit should not be interrupted in a hermetic system, the invention provides to arrange the auxiliary heat exchanger within the hub area. The internal circulation heat exchanger is also connected to a second auxiliary heat exchanger, the surface of which with the first auxiliary heat exchanger in good heat conducting Contact is brought.

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The thermal connection of this second auxiliary heat exchanger to the ribs of the circulation heat exchanger arranged in the building is carried out by saturated steam low-boiling heat transfer medium. The warning transport takes place by evaporation of condensate from a, π-speaking heat exchanger on the warmer and condensation on the colder surfaces. If the device is used as a Raunikljmaqer'it, condensation takes place in the hub area and evaporation in the area of the ribs of the circulating heat exchanger. Of the The condensate is then transported back by centrifugal force.

However, if the device is to be used to heat the room, the condensation takes place in the outer area of the circulation heat exchanger. The condensate is then transported back to the hub area by capillary forces, e.g. via capillary-active walls such as in heat pipes or via a Large number of individual wicks feasible.

Peltier elements can also take the place of the compressor.

The invention is to be explained in more detail with reference to the figures.

A 0 9 8 3 6/0 k 2 2 ^{8 AD} Or / gjn _al

Figures la and Ib show the disassembled components of the device.

Figure 2 shows the device in the installed state.

Figure 3 shows an axially extending section in the peripheral area,

Figures la and Ib: In a protective flange 1, which merges into a fender 2, the hollow shaft 3 is mounted. On this shaft, the magnetically permeable dome 4 and the wall 5 form a hermetically closed space r> Hn in which an electric motor armature 7 with a cage winding n, the compressor rotor 9 and the compressor stator 10 are located. The wall 5 forms a unit with a wheel disk 11. The wheel disk 11 has channels 12 which communicate with tubes 13 closed on one side. With the tubes 13 are annular or spiral-shaped ribs 14, preferably made of very thin aluminum sheet, in a good heat-conducting connection. At the opposite end of the wool 3, the shaft is connected to a disk 15, -this disk 15 is connected to a conical housing 16 through which a tube 17 passes, .hermetically tight. A line 18 leads from the compressor into the channels 12, an annular space shown in FIG. 3 is formed at the periphery 19, from which a capillary 20 leads to the nozzles 21, while a second capillary 22 leads from this point to the bearing gap of the compressor . The stator 23 is firmly connected to the flange. If the assembly described is to be put into operation, the interior 6 and the conical auxiliary heat exchanger 24 together with the channels 12 and 13 must be evacuated and filled with saturated steam from a heat carrier, e.g. Frigen (Freon) 22 can be filled in a known manner. If the coils 25 of the stator 23 are then supplied with energy, the armature 7 rotates at the asynchronous ^{speed, for example 2900 1} VeIaUv to the stator 23. Via the rotor 9

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BAD ORfGiNAL

the compressor we-d is a reaction torque on the housing 10 of the compressor transmitted disgee causes the same direction to "rotation of the rotating heat exchanger 11, 18 _S M ₀ Due to the rotation of the heat exchanger vrird Loft according to arrow 2S sucked and according to arrow 27 blown =, The Compressed heat carrier gas condenses in the channels IS and collects in the periphery due to the centrifugal force. IS, then passes through the capillary 20 to the nozzles 2I _t sprays there on the inner wall of the auxiliary heat exchanger 16 and evaporates there u.nfez * Y / emiaentsugo The unit A thus forms an Ei0.iexnageMna _o

-Ind the structural unit B consists v / isdsram 'from eiass "rotating heat' exchanger with tubes 28 _t1 dia Ie dia Ka.-iäls 29 of the hollow wheel disc SC ¹ protrude each one; meh inns η we is aperture Sl aufweisest The interior of - hollow? η wheel disk SO koraaiwRisieri with the inside of a second auxiliary heat exchanger.eher® 3S _S which inwards through a wall 83 made of elastically deformable material ^ S ₀ B, very thin «wandigaiTi Edeletaki, bsgrenst i @ t _c Inside 2S _a 29 _S 30 _s 82 des-Baueinheit B is © ich ein® gsrirjg © quantity of nisdereisdender FMssigfceit, otherwise derea Saitdaro.pi _G

Component C forms a housing. ίϋ.τ umlaufe the heat exchanger unit B ,: -

Unit D consists of a flange 84, nuts 35 and a housing plate 36, assembly A is through a relatively small opening 37 of the wall E is threaded through and fastened to the wall E by the structural unit D. Then it becomes a structural unit B with assembly A by nut F susamnienmontiert. The wall 33 thereby comes into direct metallic contact with

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of the wall 16, the metallic contact can be improved in that one of the contacting surfaces with a thin Layer of a very low-melting metal is coated. Through a single, slight heating up to above the melting point this metal then fills this metal in all remaining spaces or even leads to an enticement, the housing, Unit C is then attached to the housing plate 36 and the Filter 38 inserted into the front panel.

The machine can now be put into operation. At the Wall 33 takes place according to the symbolic droplets 39 condensation, The condensate is thrown into the openings 31 by centrifugal force according to arrows 40, is distributed in the pipes 28 and evaporates there. The steam flows back into the space 32 through the channels 29 and the interior of the wheel disk 30.

If the device used for generating heat eoll _f of the circuit is to be switched in the unit A in a known manner "In Hilfswärmetauseher 24 then heat to produced the surface of the wall 33 occurs then evaporation and in the pipes 28 condensation, the return of the condensate would then in the manner known from heat pipes by absorbent inner surfaces of the tubes 28, the channels 29 and the inner surfaces of the space 32.

The housing C has a corrugated perforated wall 42 through * the air passes through, but the splash water is caught. This collects in the channel 43 and is sprayed up through the spray disk 44 and to the outside through a hose 48, preferably on the ribs 14, promoted.

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Figure 2 shows the installation of the device below a window. The building unit A is located outside the house and the building unit B is inside the housing C.

FIG. 3 shows a section lying in the axis of rotation, a tube 13, the annular ribs 14 and the peripheral area 19 with the capillary tubes η 20 and 22. The heat transfer condensate 45 that forms in the tubes 13 and forms an outer ring 46 collects at the periphery , while a lubricating oil ring 47 separates further inward. Accordingly, the capillary 22 also only protrudes
right into the lubricating oil ring 47.

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Claims (2)

Claims 1. Circulating heat pump in which two are designed as heat exchangers Fan rotor and a compression refrigeration machine form a jointly mounted rotating unit, in of the two heat exchangers via a common hub are in communication with each other and an auxiliary heat exchanger is provided in the hub area, the two heat exchanger elements has, which separate the inner circuits of the fan runners from one another and one of which in each case is assigned to the circuit of a circulating fan heat exchanger, the inner heat exchanger circuits forming channel systems contain a flowable heat carrier, characterized in that the heat carrier in at least one of the channel systems (14, 28) from the gaseous and liquid phase of a boiling heat transfer fluid consists. 2. Circulating heat pump according to claim 1, characterized in that that the auxiliary heat exchanger is arranged in a hub common to both heat exchangers. 409836/0422