DE810501C - Compressed air blow-off manifold for rock backfilling in underground mining - Google Patents

Description

The invention relates to an improvement and further development the compressed air blow-off manifold protected by patent 806,254. While at the The arrangement of the back or the outer arch wall of the described in the main patent Elbow with a semicircular reinforcement, with a likewise semicircular, longitudinally extending compressed air duct and branch ducts emanating from this is provided, is a according to the invention in the reinforced wall of the manifold longitudinally extending annular channel is provided, which is formed by longitudinal ribs or webs is divided into channels in such a way that all channels with the inlet nozzle for the compressed air connection and that of those provided in the inner arch wall Channels bent or curved channels and provided by those in the outer arch wall Channels run straight or curved channels that the compressed air in the manifold in Let the direction and course to the mountain flow direction emerge. Here are the two provided in the inner arch wall and the emanating from these, into the Compressed air distribution ducts opening into the inside of the bend opposite those in the back of the elbow and the ducts emanating from these are kept considerably narrower, so that the effect of the additional compressed air flowing out in the inner bend is essential is weaker than on the main impact side.

With this arrangement, the blow molding machine by the pipeline blown mountain masses in the manifold by the additional compressed air Washed around on all sides and with all-round shielding and weakening of the friction funneled through the manifold with increased acceleration. This will cause blockages and wear of the manifold largely avoided.

The compressed air ducts are located directly in the wall of the manifold embedded and are arranged so that even with a gradually occurring Wear the required flow direction is maintained without being at the confluence collecting holes and braking resistances for the mountain masses are created in the inside of the manifold, which would adversely affect the flow and the speed.

Devices for reducing wear are already known the conveying pipelines and elbows of pneumatic or hydraulic conveying systems, in which additional compressed air is inserted into the pipe wall from the outside Nozzles is blown into the delivery pipe. However, these devices are for the mountain offset Not suitable and useless in underground mining, but also not able to cope with the heavy demands of the rough mining operations.

According to the invention, supply channels are from the inside, but provided without compressed air nozzles, in contrast, in the known designs, compressed air nozzles from the outside to the inside without supply channels.

The drawing shows an example embodiment of the subject matter of the invention illustrated. It shows Fig. I a longitudinal section, Fig. 2 a section A-B Fig. I.

The elbow can consist of the connecting pipe I and the connecting pipe 2 as well segments 3, 4 and 5 exist. In the reinforced wall 6 of the manifold is a longitudinally extending annular channel is provided, which is narrowed by Longitudinal ribs or webs 7 is divided into channels 8 and 9, so that all Have channels with the inlet nozzle Io for the compressed air connection. Here are the channels 9 by about half narrower than the two channels 8 in the back or Outer arch wall.

Somewhat narrower, straight or curved channels go from the channels 8 II, which open into the manifold in a straight line to the offset flow direction. Expediently curved or curved ones lead from the channels 9 in relation to the channels 9 also narrower channels 12 into the interior of the manifold. The one from these channels Exiting compressed air flow also runs in the direction of the mountain flow.

The mountain masses flowing through the pipeline are in the bend washed around by the additional compressed air from all sides and with this on all sides Shielding and reducing the friction on the pipe wall with increased acceleration funneled through the manifold, which significantly reduces the wear and tear on the manifold is decreased. Instead of the four channels 8, 9 arranged here, several can also be used Channels may be provided.

PATENT APPLICATION: I. Compressed air blow offset bend for the mountain offset in underground mining according to patent 806254, characterized in that in the reinforced Wall (6) of the bend is provided with an annular channel running in the longitudinal direction which is divided into channels (8, 9) by longitudinal ribs or webs (7), in such a way that that all channels with the inlet nozzle (Io) for the compressed air have connection and that of the channels (9) provided in the inner arch wall or curved curved channels (I2) and straight or curved channels (11) emanate from the channels (8), which escape the compressed air in the manifold in the direction and course of the mountain flow direction permit.

Claims (1)

2. Compressed air blow offset manifold according to claim I, characterized in that that the channels (I2) opposite the channels (9), these opposite the channels (11) and the latter in turn are kept closer to the channels (8).