DE974087C - Device for the constant transfer of a finely divided substance from a room with normal pressure into a room under increased pressure - Google Patents

Description

Device for the constant transfer of a finely divided substance from a room under normal pressure to a room under increased pressure Addendum to patent 972895 The invention relates generally to a device Ordinary for the steady transfer of a finely divided solid material from a room Pressure in a room under increased pressure, which is used for further treatment of the To serve solid, especially if it is a solid fuel, the gasification of the fuel in suspension by means of oxygen or oxygen-enriched Air.

The rooms are sealed against each other with different pressures in such a way that in a channel-like corridor between the rooms by compressing of the solid substance, a gas-impermeable stopper is formed, which is in is pushed into the room under increased pressure.

According to the main patent 972 s95, the transfer device is marked by a coaxial with and centrally arranged in the compression channel, if necessary resiliently mounted and / or adjustable counter-pressure element, the tip of which, for example in the exit plane of the possibly constricted high-pressure side channel end lies, and a grinding device, means whose the solid matter at or immediately after its transfer into the space of increased pressure fine again is divided, the invention solves the special task of the fine material between To move rooms that are not only under different gas pressures, but also from which one also has an elevated temperature, e.g. above 3000 C, so that conventional stuffing boxes are no longer intended to seal the expansion joints can be, just as little bearings or guides of normal design for the actual transport elements.

According to the invention is for this purpose between the feed or the transport of the bulk material. and its drive a Wärmefiußsperre arranged in such a way that it is in direct contact with the bulk material Contact coming working organ can assume a high temperature without being but this temperature is transferred to the seal or guide or bearing means can.

The invention can, for example, with piston press-like transport members be realized in such a way that one to the gas-tight seal of the reciprocating The transport piston is insensitive to temperature against the stationary housing wall elastic membrane for example in the form of a flat or curved thin disc or a curved hose or other tubular and stretchable structure, provides.

This membrane or other closing means can optionally be made of a non-metallic substance that is insensitive to higher temperatures, for example Rubber or synthetic rubber or inorganic substances, for example of the type of tetrafluoroethylene, or made of thin-walled metal bodies. If one arranges the reciprocating transport piston vertically and that Providing the working member below the closure membrane, it is possible to use the top to apply a cooling liquid to the closing membrane or the like.

Like a screw or the like as a transport element, one turns Heat flow barrier in the form of a cooled, gland-like bushing on and optionally or additionally forms the body of the transport shoe in the rear Part in such a way that the heat acting on the screw part passes through the metal cross-section derived and od on cooling fins. Like. Is transferred between the screw and its drive means are arranged so that the latter is at normal temperature is held.

In the drawing, Fig. I shows the invention in relation to a ram type transport device and in Fig. 2 in relation to a screw press type Transport device.

With the device according to Fig. I, the bulk material to be transported arrives through the pipe socket I into a funnel-like space 2, which is from the fixed housing 3 is formed. At the bottom of the funnel 3, the discharge opening 4 is provided, in which the transport ram 5 engages in the downward gear with appropriate advancement of the bulk material in the channel 4 and the adjoining discharge nozzle 6.

The working piston 5 is driven by a piston rod 7, whose Collars 8 or the like are mounted in the guide 9 so as to be vertically displaceable.

For driving or moving the piston rod up and down 7 a lever I0 is used, the slurry 11 engages the piston rod and a rotating one Eccentric disk I2 is swiveled in the opposite direction to the clockwise direction of rotation, while a return spring I3 causes the piston rod 7 to move upwards.

The working piston 5 has a collar 14 at the top, on which one, for example made of synthetic rubber elastic membrane 15 is attached, which, like indicated at I6, clamped between the upper and the lower part of the housing 3 is.

In the space 17 above the membrane 15 one can through the pipeline 18 introduce a cooling liquid, for example water. The cooling water drain is denoted by 19.

The downward movement of the piston 5 removes the bulk material from the funnel space 2 pressed into the transport channel 4 and moved downwards in this, according to the Stroke of the working piston 5.

By way of example in the form of a conical bolt 20 adjustable escapement at the exit of the I (anal 4 you can do such a compression of the bulk material in the channel 4 achieve that the passage of gases from the room 2 in the outlet nozzle 6 is prevented.

After the working piston 5 has reached its bottom dead center, he goes back and temporarily releases the upper opening of the channel 4, so that another amount of the bulk material can get out of the funnel space 2 into the channel 4 can. During the subsequent downward movement of the piston 5, the material is in the channel 4 pressed together again and the previously compressed part into the outlet nozzle 6 pressed, while the newly added bulk material then the gas-tight seal in channel 4 takes over.

Is used to clamp the membrane 15 on the collar 14 of the piston 5 advantageously a cup-like body 21, which is preferably made of metal is so that he can easily transfer the heat from the piston 5 to the cooling liquid in the room 17 can transfer.

The device according to Fig. 2 is used for advancement or transport of the bulk material that enters through the nozzle 25, a transport screw 26, the interacts with an inhibition 27. The compaction of the goods takes place here continuously in the space 28 or in the passages of the press screw 26 instead. The ejected Good finally emerges through the connecting piece 29.

The press screw 26 is overhung on the shaft 30, the is stored in a cooled warehouse 31. At the rear, the shaft has 30 a series of conductors with her body bound metal disks 36 or the like, which come into contact with a cooling liquid 32 in the trough 33 and dissipate the heat transmitted through the relatively thick shaft 30 so that the Drive 34 remains free from abnormal loads. In the wave 30 can also a poorly thermally conductive coupling 35 can be provided.

Claims (5)

PATENT CLAIMS: I. Arrangement for the steady transfer of a finely divided solid substance, in particular a fuel, from a room of normal pressure in one under increased pressure, the further treatment, especially the Gasification of the fuel in suspension by means of oxygen or oxygen-enriched Air, serving space, in which different in a canal-like corridor between the rooms Pressure by compressing the solid material a gas-impermeable stopper is formed, which is pushed into the space under increased pressure, after Patent 972 895, characterized in that in the connection between the feed the working organ causing the bulk material and its drive means a heat flow barrier is arranged such that it comes into direct contact with the bulk material Feed member can assume a higher temperature without this temperature transfers to the drive or sealing or guide means of the feed member. 2. Device according to claim I with an oscillating piston as Feed member, characterized in that the oscillating piston by means of a its work movements participating in elastic body with the housing wall gas-tight connected is. 3. Device according to claim 2, characterized in that the stretchable Body made of a membrane made of rubber or the like. 4. Device according to claim 2 or 3, characterized in that with a preferably vertical arrangement of the oscillating feed piston below the sealing membrane the housing space above this membrane with a coolant (e.g. cooling water) supply line and drainage is provided. 5. Device according to claim 1 with a screw press as the feed member, characterized in that the shaft connecting the press screw with its drive out of the housing through a cooled stuffing box and with a circumferential Cooling fins are provided which are immersed in a coolant, preferably cooling water.