DE1200470B - Blower used to convey hot gases - Google Patents

Description

Fan used to convey hot gases When conveying hot gases Gassing through a fan, it is an important job to control the flow of heat from the fan wheel to keep the bearing or bearings as small as possible. As an expedient solution that is known in various embodiments, it has been shown to be the drive shaft Interrupt the fan wheel by two disks that are connected to each other by spacers are connected and of which the disc facing the bearing with at least one Provided inlet opening for cooling air passing through between the panes is. In many cases, this arrangement provides adequate protection for the bearing against the high temperatures in the fan. But it is not sufficient in the event that the bearing or bearings of the fan wheel is within the intake port of the blower. Because in this case the camps are the radiant warmth of the Suction nozzle exposed, which is not kept away by an interruption in heat conduction can be.

The protection of the fan bearing against the radiant heat of the intake manifold has already been dealt with in connection with induced draft systems for boiler firing. Two measures have been combined here. The intake ducts of the blower between them are double-walled to form two sub-channels. before The fan bearing is preceded by a second fan that draws in cooling air and they pass the bearing into the partial duct of the double-walled one facing the fan Intake duct presses. It does result in a good protection of the camp against the heat radiating from the intake manifold, but with a very considerable construction effort is bought and which can only be used where there is sufficient accommodation space for the additional fan is available.

The invention is based on the task of an equally effective, but a more compact and simple arrangement for the protection of the bearing or bearings to create an axial fan, based on the design already mentioned with the two separating the drive shaft, leading a flow of cooling air between them Discs. The invention consists in that in an arrangement of the bearing or bearings of the fan wheel within the intake port of an axial fan, the discs on Perimeter are surrounded by an annular air box that has at least one longitudinally extending in a hollow body forming the inner wall of the intake port Channel with the suction nozzle and also for supplying additional cooling air with a hollow bearing foot is in connection.

In a preferred embodiment, the longitudinal one is at the confluence Channel in the intake port an exiting cooling air in the direction of the fan wheel deflecting guide surface provided.

The progress made over the known proposal with the additional Fan is achievable, can be particularly clearly seen in the now to be described Recognize embodiment of the invention.

It is assumed that the bearings 3 and 4 of the shaft 1 of the fan wheel 2 are located within the suction port 7 of the fan. Two tasks arise here, namely to prevent the direct heat conduction from the fan wheel 2 via the shaft 1 to the bearings 3 and 4 and also to keep away the heat radiating from the intake port 7. To prevent the conduction of heat, the known arrangement is used to interrupt the heat path by two disks 8 and 10 , which are connected to one another by spacers. The disk facing the bearing 3 has passage openings 14 through which cooling air is sucked in between the disks 8 and 10 and exits at 9. In this way, the direct heat conduction is initially prevented. To keep away the heat radiating from the intake port 7 , the following arrangement is made. The disks 8 and 10 are surrounded on the circumference by an air box 11 which is connected to the outlet 9 of the gap between the disks 8 and 10 . From this air box 11, which at the same time forms a shielding wall of the bearing, one or more channels 12 extend lengthways in a hollow body that forms the inside of the intake port 7 , are connected to the outlet at the intake port and are traversed by cooling air . The channel or channels thus shield the bearings 3 and 4 from the radiant heat of the intake connector 7 . However, another cooling air supply is provided, namely in that the bearing foot 5 carried by the lower wall 6 of the intake port 7 is hollow, communicates with the outside air at 16 and with the air box 11 via channels 13 . Since there is negative pressure in the air box 11 as a result of the connection to the intake port via the channel or channels 12, a cooling air flow is generated in the hollow bearing foot, which also protects against heat, which is heat-treated 1. The example shows a special feature in that a guide surface 15 is attached to the inlet of the channel 12 in the intake port 7 , which deflects the incoming cooling air flow in the direction of the fan wheel 2.

The signal box 17 for adjusting the fan blade is indicated only for the sake of completeness.

Claims (2)

Claims: 1. A fan serving to convey hot gases, in which the drive shaft of the fan wheel is interrupted by two disks which are connected to one another by spacers and of which the disk facing the bearing is provided with at least one inlet opening for cooling air passing through between the disks, characterized in that with an arrangement of the bearing (s) of the fan wheel within the intake port (7) of an axial fan, the disks (8, 10) are surrounded on the periphery by a tine-shaped air box (11) which over at least one in one of the inner wall of the intake port (7) forming the hollow body longitudinal channel (12) with the suction nozzle and also for the supply of further cooling air (at 13) with a hollow bearing foot (5) in connection. 2. A blower according to claim 1, characterized in that at the confluence of the longitudinal channel (12) in the intake port (7) a guide surface (15) deflecting the exiting cooling air in the direction of the fan wheel (2) is provided. Considered publications: German Patent Specifications No. 471 903, 807 298, 821822.