CS242657B1 - Apparatus for inlet and outlet of a cooling medium for rotary retorts of pressure generators - Google Patents

Abstract

The purpose is to ensure controlled coolant flow from non-rotating parts to the rotating parts and back. Equipment fitted with cooling walls and cooled the threshing pins placed in the retort axis non-rotating body (3), fixed (23) with the generator wall (24) It is rotatably mounted in the non-rotating body (3) sealing and distribution member (2) fixed to the retort (1) by the entrainment arm (4) and unasece (5). Input inlet the chamber (8) is separated from the discharge chamber (15) a sealing surface (19).

Description

The present invention relates to a device for supplying and discharging coolant for rotary retorts of pressure generators and solves the flow of coolant between rotatable and non-rotatable portions of the retort.

Pressure generators are known in which a rotatable retort provided with fuel outlets and bursting mandrels is located at the top of the generator body. Only the axial hollow shaft is cooled. As a result, uncooled retort walls and bursting mandrels must be made of high quality material and must not interfere with bands with higher temperatures.

Further, it is known to provide a fixed non-rotatable retort which is provided with a non-rotatable cooled rotary body extending into the fuel layer more than 40 cm below its lower edge. Through the cooling, non-cooled swivel arms rake the layer between this cooled body and the shaft of the generator shaft. A disadvantage is the need to use high-alloy material for the rotating uncooled parts.

There is also a standing cooled retort equipped with a water-cooled turntable located on a hollow shaft and equipped with fuel outlets and raking chilled pins. The disadvantage of this design is the complicated and technically demanding design of the seals between the rotating and non-rotating parts, as well as the massive attachment of the hollow shaft and the drive of the bottom of the retort and scrapers.

The disadvantages of the described solutions are eliminated by the cooling and inlet device according to the invention, provided with cooling walls and cooled bursting mandrels, characterized in that a non-rotatable body, fixedly connected to the generator wall, is arranged in the axis of the rotatably mounted retort.

242 657

In the non-rotatable body, a sealing and distribution member is rotatably mounted, rigidly connected to the retort by the carrier arm and the carrier. The coolant supply is provided by a supply tube passing through the generator wall through a supply channel passing through the non-rotatable body and a connected inlet supply chamber, a rotatable supply channel, an outlet supply chamber and a rotatable supply tube to the cooled retort walls and cooled bursts. The cooling medium is discharged through a discharge tube passing through the generator wall, a discharge channel passing through the non-rotatable body and a downstream discharge chamber, a rotatable discharge channel, a discharge inlet chamber and a rotatable discharge tube from the cooled retort walls and cooled bursting mandrels. The high pressure coolant circuit is sealed from the lower pressure gas chamber by a gland. The coolant inlet and outlet are separated from each other in the non-rotatable body by a sealing surface, for example a ground cone or plug.

By concentrating the contact of the rotatable and non-rotatable parts of the coolant supply into a relatively small non-rotatable body, a controllable and forced flow is achieved. Furthermore, expensive dismantling, failure of the seals are eliminated, which results in higher production output of the whole device. Perfect flow of the coolant eliminates the risk of incomplete cooling of the retort, the expanding mandrels, thereby avoiding overheating, deformation and cracking of the material used.

An exemplary embodiment of a coolant inlet and outlet device for rotary retorts according to the invention is shown schematically in the accompanying drawing, in which a section of the rotary retort is shown.

In the axis of the retort 6 rotatably mounted in the axial-radial bearing 21 and driven by the pinion 22, a non-rotatable body 6, fixedly connected by arms 23 to the wall of the generator 24, is disposed.

In the non-rotatable body 6, a sealing and distribution member 6 is rotatably mounted, fixedly connected to the retort 6 by a carrier arm 6 and a carrier 6, the coolant supply tube 6 passing through the wall of the generator 24 being a supply channel 7,

- 3242657 passing through a non-rotatable housing 2 ³ adjacent the inlet feed chamber B, the rotary feed channel 9 extending through the sealing member and rozvéděcím £, výstupnípři water chamber 10 and the rotating supply pipe 11 communicates with the retort walls vychlazovanými Ί ³ cooled the breaking pins 13 12th discharge tubes and also passing through the generator wall 24, it is connected to the cooled retort walls 2 ³ through the exhaust duct 14 passing through the non-rotatable body 2 and the connecting exhaust chamber 15 through the rotary exhaust duct 16 / passing through the sealing and distribution member 2, the exhaust inlet chamber 17 and the rotary exhaust pipe 18. the breaking spikes 12th diverter chamber 15 from the input supply chamber separated £ sealing surface 19 and rotatably mounted sealing enclosure member, and £ is the fixed body 2 is sealed _{from the} seal 20 which prevents the penetration of coolant m dia of high pressure gas into the lower pressure / surrounding non-rotating body 2 ·

The tightness of the inlet and outlet paths coolant to each other and to the internal space of the generator is given by the tightness of the sealing and distributing member 2 in the non-rotatable body 2. The sealing surfaces can be designed either as ground plugs or as a stuffing box.

Claims (1)

SUBJECT OF THE INVENTION Coolant inlet and outlet device for rotary retorts of pressure generators provided with cooled walls and cooled bursting mandrels, characterized in that, in the retort axis (1), in the non-rotatable body (3), the arms (23) are fixedly connected to the generator wall (24) a sealing and distribution member (2), rotatably mounted, fixedly connected to the retort (1) by the carrying arm (4) and the carrier (5), the coolant supply pipe (6) being connected by one supply channel ΠΙ passing through the non-rotatable body (3) and a downstream inlet chamber (8) through a rotatable inlet channel (9) passing through the sealing and distribution member (2), an outlet inlet chamber (10) and a rotatable inlet pipe (11), with a cooled retort (1) and rip mandrels / 12), while the coolant drain pipe (13) is connected by at least one drain channel (14) passing through the non-rotatable body (3) and the downstream drain A discharge chamber (15) with a rotary discharge channel (16), a discharge inlet chamber (17) and a rotatable discharge tube (18) with a cooled retort (1) and straddles (12), the discharge chamber (15) being separated from the inlet the sealing chamber (19) and the rotatably mounted sealing and distribution member (2) are sealed in the non-rotatable housing (3) by a gland (20).