DE10237133A1 - Heat exchanger-turbine arrangement for use in refrigerator, especially domestic refrigerator, has magnet in fluid flow line coupled to turbine in line to generate rotating magnetic field outside line - Google Patents

Abstract

The heat exchanger-turbine arrangement has a line (4) for a first heat carrying fluid and a turbine (6) in the line driven by the fluid flow. A magnet in the line is coupled to the turbine to generate a rotating magnetic field outside the line. The turbine has blades in the form of extruded profiles. A flow generator driven by the magnetic field acts on a second heat carrying fluid in thermal contact with the line. AN Independent claim is also included for the following: (a) a refrigeration device with an inventive heat exchanger.

Description

The present invention relates to a heat exchanger turbine arrangement according to the preamble of claim 1.

Such an arrangement is over FR-A-2 792 063 known.

To heat transfer between one in one heat exchangers circulated first heat transfer fluid and one the heat exchanger surrounding second heat transfer fluid, especially air, to intensify it is known to be a fan use the second heat transfer fluid along the surface of the heat exchanger set in motion. Usually is like refrigeration appliances such as household refrigerators, freezers, etc., the above have such a fan, the fan is driven by an electric motor. With a refrigerator, one can such a fan both on the evaporator and on the condenser Come into play. The attachment is especially for the evaporator of such an electric motor involves considerable effort and costs, for this whose power supply is a supply line through the heat insulating housing wall of the refrigerator must become. This housing wall is conventional constructed from a one-piece plastic inner container and an outer wall, that enclose a space which in the course of manufacturing the device with insulating foam material filled out becomes. To prevent foam in the place of a cable entry penetrates into the interior of the refrigerator, must have such an implementation careful be sealed.

With that FR-A-2 792 063 In known heat exchangers, a turbine arranged in a line through which the circulated heat transfer fluid flows is used to directly drive a fan acting on the other heat transfer fluid. The turbine is arranged on a line section in front of or behind the heat exchanger. The turbine housing and its connections to the line must be absolutely leakproof for the refrigerant. This makes the installation of such a turbine in a refrigeration device complex. In addition, since such a turbine is not a commercially available product, whereas small electric motors, which are suitable for driving a fan in a refrigeration device, are manufactured in large quantities for a large number of applications and are accordingly inexpensive, it is difficult to obtain them Turbine to provide economical costs compared to electric motors.

Object of the present invention is a heat exchanger turbine assembly provide that in a refrigerator, in particular a household refrigerator, economical can be used.

The object is achieved by an arrangement with the features of claim 1.

Since the turbine is in a casing of the heat exchanger included, the costs for an independent housing fall Turbine and the effort for continue its assembly in the refrigerator. In extreme cases, the turbine can be attached to an impeller on a drive shaft for the Fan can be reduced, bearings for the shaft can be used immediately on the housing of the heat exchanger be formed.

There is preferably one in the housing Arranged magnet and for generating a rotating magnetic field outside of the housing coupled to the turbine. This eliminates the need for a drive shaft for the fan out of the housing of the heat exchanger lead out, because the fan can over Magnetic coupling with the help of an outside of the housing first magnet opposite rotatably arranged second magnets are driven. A special The advantage of magnetic coupling to the fan is that the If the fan is mechanically blocked, the turbine is not prevented from rotating in the line, so that by Such a blockage does not also affect the current of the first heat transfer fluid is blocked in the line.

Furthermore, the housing of the heat exchanger is preferably from a flat plate and a structured plate, in which the course of the refrigerant line through the heat exchanger is molded, built, and the magnet is on the flat wall arranged. So it is possible the heat exchanger with its flat plate on the foam side of an inner refrigerator unit glue and the fan opposite the magnet of the heat exchanger on the inside of the inner container to place.

The turbine can be simple and inexpensive be formed with blades designed as an extruded profile.

A heat exchanger of the type described above can be used as a condenser or as an evaporator for a refrigerator is used become.

Other features and advantages of present invention result from the following description of embodiments with reference to the attached Characters. Show it:

1 a perspective view of an evaporator equipped with a turbine according to the present invention for a refrigerator;

2 a schematic radial section through the turbine 1 ; and

3 an axial section through the turbine.

1 shows a perspective view of an evaporator for a refrigerator as an embodiment Example of a heat exchanger according to the invention. The evaporator 1 is constructed in a conventional manner from two soldered sheets 2 . 3 Made of non-magnetic, good heat-conducting material such as aluminum, a flat sheet 2 , which is provided to be attached to an inner container of a refrigerator on the foam side by gluing, and a sheet 3 , in which a refrigerant line 4 is formed. On a connection piece 5 is a suction line for the refrigerant from the evaporator 1 led out and introduced an injection line concentric to this. A turbine 6 is on the evaporator 1 arranged at a point where the narrow injection line into the further refrigerant line 4 of the evaporator passes.

The structure of the turbine 6 is in in two cuts 2 and 3 shown in more detail.

2 shows a section through the turbine 6 in one to the sheets 2 . 3 parallel plane. In a circular chamber 7 is a paddle wheel 8th pivoted so that its blades 9 from one from the injection line 10 flowing at high pressure and high speed emerging refrigerant jet. Part of the expansion of the refrigerant conventionally achieved by capillary injection at the beginning of its passage through the evaporator thus becomes in the evaporator according to the invention 1 thereby achieved that the refrigerant flow in the turbine 6 when driving the paddle wheel 8th Does work.

The paddle wheel 8th has one in the axial direction, perpendicular to the plane of the 2 , constant cross-section. Such a paddle wheel can be produced inexpensively by forming an extruded profile, for example made of aluminum or from a plastic resistant to the refrigerant, with the cross section of the paddle wheel, and cutting the extruded profile into disks.

3 shows an axial section through the turbine 6 in the inside of the container 16 of a refrigerator installed state. A wave 11 the turbine is made up of two ball bearings 12 held, one on an outer shell 13 and the other on a support sleeve 14 is held, each on the flat sheet 2 of the evaporator are attached. The outer pane 13 can with the fully assembled evaporator 1 from the sheet 3 be covered, or it can be in one piece in the sheet 3 be formed.

On a flat sheet 2 facing end of the shaft 11 is a magnet 15 attached. This rotates together with the paddle wheel 8th when the latter is flowed by coolant.

On the inside of the inside wall of the container 16 is a fan 17 mounted so that a shaft 18 the same with the wave 11 the turbine 6 flees. The wave 18 is about ball bearings 12 and a carrier sleeve 19 on the inside of the container 16 attached. That of the inside wall of the container 16 facing end of the shaft 18 carries a magnet 20 that of the magnet 15 facing the turbine. Because of the attraction between the magnets 15 . 20 the latter tends to be one of the refrigerant in the turbine 6 driven rotation of the magnet 15 to follow and so the fan 17 rotatably drive. Because between the waves 11 . 18 the turbine 6 and the fan 17 there is no direct mechanical coupling, there is no risk of the evaporator leaking on the turbine 6 , At the same time, the fan can be blocked 17 not cause the paddle wheel 8th itself gets stuck and so the flow of refrigerant in the evaporator 1 blocked.

Claims (7)

One-line heat exchanger ( 4 . 22 ) for a first heat transfer fluid and one in the line ( 4 . 22 ) arranged turbine which can be driven by a flow of the first heat transfer fluid ( 6 ), characterized in that in the line ( 4 . 22 ) a magnet ( 15 ) arranged and for generating a rotating magnetic field outside the line ( 4 . 22 ) to the turbine ( 6 ) is coupled. Heat exchanger according to claim 1 or 2, characterized in that the turbine ( 6 ) blades designed as an extruded profile ( 9 ) Has. Heat exchanger according to claim 1 or 2, characterized in that a flow generator which can be driven by the rotating magnetic field is connected to a line ( 4 . 22 ) second thermal fluid in thermal contact acts. Heat exchanger according to claim 3, characterized in that the flow generator is a fan ( 17 ) is. Heat exchanger according to one of the preceding claims, characterized in that it is a condenser ( 21 ) for a refrigerator. Heat exchanger according to one of the preceding claims, characterized in that it is an evaporator ( 1 ) for a refrigerator. Refrigeration device, characterized by a heat exchanger ( 1 . 21 ) according to one of the preceding claims.