DE1103443B - Electrical resistance cooled by an air flow, especially start-up and room heating resistance - Google Patents

Description

Electrical resistance cooled by an air stream, in particular Start-up and room heating resistance The spatial dimensions of electrical resistances depend on the electrical power, which in the most cases is due to: the. concerned Resistance should be converted into heat. So with: greater electrical power If the dimensions of the resistors remain within limits, these are caused by an air flow cooled, which is generated by fans or blowers.

The better and more evenly the individual elements of a resistor are exposed to the cooling air flow, the higher the permissible .specific load capacity of the resistor, ie the smaller the dimensions of this resistor can be chosen for a given maximum load. Resistors for large powers with smaller dimensions are required, for example, in particular as starting and braking resistors in electric traction vehicles, since the space available there is usually very limited.

In known resistor arrangements, therefore, the resistor elements the end. Cast iron, sheet metal or wire in a flow-optimized channel set, with the flow-generating unit usually on the inlet side is located. The resistance elements in the channel are arranged so that they as possible completely surrounded by the moving air.

Via a series of resistor elements connected in series Air flow blown through experiences a pressure drop with decreasing air velocities between entry and exit point of the flow channel. The result is that de Resistance elements lying in this area: very different temperatures may have, the elements lying against the exit point being the strongest .be heated.

It is also used to achieve a better and more uniform cooling effect already scanned, an electrical resistor cooled by an air stream to provide, -whose elements are arranged circularly around a common axis and are set in circulation around this axis relative to guide vanes and rotor blades. With this one known resistance, however, is the desired uniformity of cooling of the individual Resistance elements only partially achieved, as the flow conditions of the over the individual resistance elements conveyed air roughly those with fixed in one Airflow corresponds to arranged resistance elements.

The invention relates to an electric cooled by an air stream Resistance, in particular an approach and space heat: resistance, its elements arranged in a circle around a common axis and around this axis relative to or blades are in circulation. The object is achieved by the invention solved to cool the individual elements of the resistor very evenly, so that this makes very small dimensions of the resistor possible. According to the invention are the guide vanes and / or rotor blades forming the cooling fan themselves as resistance elements educated.

Preferred embodiments of the invention are explained below with reference to the drawing. According to Fig. 1, for. B. a resistance element: about a hairpin: del-shaped bent sheet metal 1 attached to .einem pushed onto a shaft 2, heat-resistant insulating body 3. The ends of the resistance element 1 are connected to two slip rings 4 located on the insulating body 3, on which slip rings 5 connected to Z-leads 6 slide. If the shaft is now set in rotation, then there is increased cooling of the resistance body through which current flows. In this embodiment, the legs of the hairpin-shaped resistance element 1: are guided through the surrounding, still air.

If now, according to Figure 2, the legs of the resistance element 1 are crossed then they act as fan blades and move the air around them in the, axial direction, whereby a particularly: intensive cooling of the resistance elements 1 is effected.

Turn according to Fig. 3, the resistance elements 1 parallel or approximated parallel to the axis of rotation between two supporting them and wholly or partially made of heat-resistant Disks 7 made of insulating material are arranged, then those inclined to the axis 2 act Resistance elements 1 also as air-conveying blades, so that the cooling air is sucked in and moved radially past the ZN resistance elements 1 will. The Fi.g. 4 shows the arrangement according to FIG. 3 in a section perpendicular thereto.

A further development of a resistor according to the invention is shown in FIG. 5 shown. There are -the resistance elements 1, which are made of disk-shaped Cast or sheet metal grids with shovel-shaped curved segments exist on the designed as a hollow shaft. Clete shaft 2 and the insulating tube 3 pushed over it. The electrical distancing between the individual resistance disks takes place by insulating rings B. All of the aforementioned parts 1, 2, 3 and 8 are through aerodynamically designed closure pieces 9, which on the .der ve: rseheren Hollow shaft2 are screwed on, held together.

The resistance element l made of cast iron can be designed as shown in FIG. From, inside and outside are hereafter in a metallic disk forming the resistance element 1 Incisions are provided so that the stream is on a long zigzag path from one Connection point 1 a to the other 1 b flows. The incised ones turned outwards Disc segments are deformed into fan blades.

Those connected in series or in parallel and one behind the other Lined up resistance disks are in the manner shown in Fig. 7 with one another tied together. The two successive disk-shaped resistance elements 1 insulating ring 8 is drilled through in the junction. Through this hole, is a metal tube 10 pushed through. A secured screw presses the disk-shaped Resistance elements 1 firmly together. Instead of this connection, however, could also a known Druckkontaktverbindiung can be used. The metal pipe 10 would then be replaced by a double-acting pressure contact, the Compression of all panes by the locking pieces9 making the electrical connection.

As can be seen from FIG. 7, it has one of the disk-shaped ones Resistance elements l at the connection point one threaded hole, the other disk-shaped Resistance element 1, however, has a smooth hole. In one and the same disc So the connection point has a thread, while the connection point 1b is a smooth one Hole, with which a continuous connection of all discs is possible, which then are offset from one another by one segment from connection to connection.

The according to Fig. 5 for the current-locking connection between the circumferential Resistance elements 1 and the supply lines6 required grinding rings4 and brushes 5 can e.g. B. outside the hollow shaft 2 on the Eineaugsei: te or within the Hollow shaft. The slip rings located inside the hollow shaft: can can also be arranged either on one side or on both sides. Depending on The choice of this grinding position or brush position is .sich Power connection between the resistance washers and the slip rings - Im drawn Example, both slip rings 4 are on one side. The enlarged view in Fig-8 shows how the connections between resistance elements 1 and Brushes can be made. Inside the hollow shaft 2 and attached to .fieser there is a slip ring carrier 15 with slip rings 4. Slide on them the brushes 5 carried by a bearing bracket 11 and a brush holder 12 insulated stud screw 13 establishes the connection between one of the slip rings 4 and the .ersten resistance element 1 ago. The connection between, the stud 13 and the connection point 1 a or 1 b visible in FIG. 5 takes place via a Angle 14. In the insulating Dlstanzringe 8 there are recesses for the Mounting of the screw heads and nuts. The connection of the second slip ring 4 to the resistance element located at the opposite end of the hollow shaft 2 - takes place via a line 16.

The hollow shaft 2 contains a drive motor, which is used to avoid a impermissible heating by a fan 17 promoted by eri: nem and on opposite end of the motor 18 expelled air stream is cooled. The application a silicone insulation in the motor 18 can be useful. The engine 18 is a drum motor, d. i.e., the armature is on the tongue and groove 19 with a housing cover 20 connected stationary axis 21 held. The motor lines 22 are .feed through a fixed hollow axle21.

The drive motor for the impellers on the hollow shaft can flow through the same current as the resistors or in a partial circuit be fed for this purpose or externally supplied with electricity.

According to what has been said above, the resistance unit provides a turbo blower The mounted on the hollow shaft 2 and revolving with it fan resistance elements 1 form the blades of a fan. Provided that the for cooling the Resistance elements l required amount of air is low, so low pressures too produce are. no guide vanes are required. In this case the whole impeller consisting of several resistance elements from an expediently undivided impeller Enclosed housing.

But if higher pressures for more intensive cooling of the drag wheels necessary; then there are permanently installed between the latter in the divided housing Guide vanes 23 required. They can be firmly connected to the outer housing part his and thus the heat absorbed by the air flow to the .das housing Release air, which occurs especially when the split housing with cooling fins is provided.

The guide vanes 23 can, however, also be used as electrical resistors be used. In this case they are in the same way as, that is, the Wi 1 layered. In the housing 24 there are then between these and the guide vanes an insulation 25 and spacers 26. These two elements 25, 26 are like the case halved. The guide vanes 23 and the spacers 26 are in the Production of the resistor after the housing halves 24 have been plugged together, held together by undivided press rings 27. The electrical connection of the Guide vanes with one another and with the impellers on the other hand are carried out in a similar manner Way as in Fi.g. 7 and 8.

The invention is not only for the already mentioned starting and braking resistors Od. Like. Applicable, but also for electrical heaters of all powers and allows a particularly small and light design for a given performance of the device. 9 to 11 show an example for this, namely Fig. 9 shows a section perpendicular to axis 2, FIG. 10 shows the view of the rotor body from FIG the side and FIG. 11 shows a diagram for current conduction in the rotor body. the Resistance elements 1 are in this case as 4 "fan blades or rotor blades formed and applied to support disks 7 and consist of ceramic or other heat-resistant materials. Heating rods or wires 28 are embedded in these bodies, which send in series with one another.

The wires and bands can also be on the air-conveying bodies 1 are wound up according to FIG. 9 when they are in suitable, their centrifugal force intercepting Grooves inserted or threaded through holes located in the resistance carriers will.

The power connections with each other in all the arrangements described above and the slip rings can be designed in such a way that apart from pure series connection all switchgear elements, also parallel connections or taps for any Circuits are provided, then possibly more than two slip rings be arranged on the shaft, isolated from the latter among themselves.

Fig.12 shows an embodiment for a space heater according to 9 to 11, which sucks in air from above and the heated air to all sides blows out. This version is intended for installation on a floor surface. However, the thermal fan can also be designed so that it has a low overall height is attached to the ceiling, where it sucks in the air to be heated from below and blows out to the side.

Another possible design is that the thermal fan is grown on a space delimiting surface in such a way that it is from both the Can suck in fresh air or, with the appropriate setting, work with circulating air.

Claims (7)

PATENT CLAIM: 1. Electric cooled by an air stream Resistance, especially start-up and space heating resistance, the elements of which are circular arranged around a common axis and around this axis relative to guide vanes or rotor blades are set in circulation, characterized in that the forming the cooling fan Guide and / or rotor blades themselves are designed as resistance elements. 2. Electrical resistor according to Claim 1, characterized in that the Resistance elements formed fan is a turbo or axial: fan. 3. Electric Resistor according to Claim 1, characterized in that the resistance elements formed fan is a radial fan. 4. Electrical resistance according to one of the Claims 1 to 3, characterized in that the moving or guide blades themselves consist of current-carrying resistance material. 5. Electrical resistance according to claim 4, characterized by hair, needle-shaped and interlaced Resistance elements (1; Fig. 2). 6. Electrical resistor according to one of the claims 1 to 3, characterized in that the blades or guide vanes are made of a heat-resistant, insulating material, in which the current-carrying resistor parts, z. B. Wires, ceramic baked, wound or threaded. 7. Electrical resistor according to one of claims 1 to 6, in which an electric motor is provided for driving the resistance elements, characterized in that the electric motor is arranged in the axis of the fan, which is designed as a hollow shaft. B. Electrical resistor according to claim 7, characterized in that an additional, driven by the motor fan for cooling the motor is provided in the hollow shaft. Contemplated publications: USA. Patent No. 1,475,735..