NO159418B - PROCEDURE FOR THERMAL CLEANING OF EXHAUST GAS FROM RINGS OVEN. - Google Patents

Abstract

1. Process for the thermal cleaning of ring furnace exhaust gases for the burning and annealing of carbon materials, which ring furnaces are using several successively running fires, wherein at least part of the exhaust gases conducted to the exhaust gas flue after having brought in heat exchange within the pre-heating chambers where they have become enriched with effluent particles and smouldering materials originating from the furnace process, are returned into the last closed cooling chambers of the fires and another part of the exhaust gases are mixed to the primary air, and wherein the exhaust gases are pressed into the exhaust gas flue by a flue-van within the smoke-flue, characterized in that the carrying air necessary for the heat transport corresponding also to the secondary air for the combustion of the fuel and the vapors of the pyrolysis is sucked-in by controllable vans (Vu ) positioned behind the last lids (D5) of the fires, blown into the smoke-fuel (2, 2') connected thereto and introduced through pipes (3) arranged between the smoke-fuel (2, 2') and the cooling chambers (4) into the fires, so that by the sealing of the cartridges of the respective first opened chamber of a fire by means of a cover frame uncontrollably entering of air is avoided and the vacuum necessary for the furnace area and produced by the flue-vent (Vk ) and controllable traps (7) is controlled within the smoke-flues (2, 2').

Description

Sensing device for hovercraft.

The invention relates to a sensing device which, when operated in connection with a nearby surface, can be used to sense the distance between the device and the surface.

It is an object of the invention to provide a device which can sense its height above the surface above which it is operating without being in contact with the surface, without the use of electronic, barometric or other complicated sensing arrangements, and which is relatively cheap and easy to construct and to operate.

The sensing device according to the invention is of the kind that comprises a room or chamber which is bounded downwards by the ground surface and upwards by a suitably flexible membrane, and the invention is characterized by the membrane being held between flexible walls which are interconnected above the membrane by a roof and that the aforementioned parts are carried on and by a downward-hanging snake-shaped skirt to and from the vessel, which during the device's operation is kept inflated by means of compressed air, and that the compressed air from the skirt is led through the roof via a port and down into a space between the membrane and the walls and that the compressed air from there flows out through nozzles between the lower edge of the membrane and the walls.

In a preferred embodiment of the invention, a device is arranged which has supply channels for gaseous fluid on two opposite sides of the pad and parts of essentially gas impermeable material form the barrier against the pad escaping to the rest of its side limitations.

Further objects and advantages of the invention will become more readily apparent from the following detailed description of an embodiment of the invention applied to a hovercraft, with references to the attached drawings, which are only intended as an example, and in which: Fig. 1 is a side section of a device according to the invention, arranged at the lower end of a segment of a flexible skirt of a hovercraft. Fig. 2 is a ground plan of the device

illustrated in fig. 1.

In a hovercraft in which air or gas is led to peripheral jet nozzles by channels 1, each peripheral jet nozzle forms part of the device according to the invention. A membrane 2, which is essentially square in plan and is provided with a port 9, is situated across the lower end of each channel 1. Vertical membranes 5 and 6 hang down from the edges of the membrane 2, essentially at right angles to the main air or gas cushion on which the vessel is supported, and acts as a restriction between nearby jet nozzles. Flexible walls 11 and 12 hang down from the remaining two sides of the diaphragm 2. A semi-rigid part 13, such as a cable or

wire, is suspended below the membrane

2. by means of stretch parts 14, e.g. long-there of line. An airtight membrane 10 is suspended from the semi-rigid part 13 and flexible cross members 3 and 4 are arranged to hold adjacent parts of the air-

sealing membrane 10 to the flexible walls 11 and 12, so that flexible jet nozzles 15 and

16 is designed. The flexible jet nozzles 15

and 16 are directed inwards towards the airbag.

In operation above the surface 8 becomes air or

gas led from the devices that produce

brings the pressure for airbag emergence-

the means (not shown), through the skirt channel 1, and the port 9 in the membrane 2 to the nozzles 15

and 16 by means of the passages formed between the airtight membrane 10 and the flexible walls 11 and 12. In accord-

using the well-known principle of an air cushion generating means, air or gas flows out from the nozzles 15 and 16 and acts as a barrier, and a compressed air or gas

cushion builds up in the chamber 7 formed between the airtight membrane 10 and the upper

the surface 8, on which air cushion emergence

the remedy is supported.

The effectiveness of the seal formed

of air or gas flowing out from the

tendons 15 and 16, depends on the mass of air that is carried out and on the distance between the nozzles and the surface over which they work.

If therefore the mass of flowing air

is held constant, a variation in the

the position between the nozzle and the surface resul-

tere in a variation in the pressure in the chamber.

This variation of chamber pressure is

used to raise or lower the lower ends of the skirt segment.

It will be obvious to those skilled in the art that the invention need not be limited

set to an airbag originator. Nor does the invention need to be limited

set for air cushion development means with a plurality of channels located next to each other, as described above,

but that a single device with a jet

nozzle adapted to form at least a portion of the side restriction around a portion of the cam-

more of the sensing device can be arranged

is used as an effective sensing device.

In such a device, the jet nozzle can be directed

inwards or vertically downwards.

The device according to the invention

can easily be used for alternative designs

nings of flexible skirt systems for air cushion deployment means and can, for example, form the flexible jet nozzle for the flexible skirt arrangement. In such an arrangement,

when the flexible skirt system is in the nor-

paint, inflated condition, the outer wall of the flexible skirt system extends upwards, then outwards from the attachment point to the rigid structure, then downwards to the nozzle outlet. This facilitates the vertical

movement of the nozzle, which in turn presses

the skirt device upwards or downwards relative to the surface above rest

ken means of emergence is in operation.

It will be clear that this device depends on the three parameters, the distance between the device and a surface, mas-

of the air flow at the jet nozzles, and the pressure inside the chamber, and that if any one of these parameters is kept constant, a change in a second parameter is sensed by the resultant change

gene of the third parameter. It will too

be obvious that this device can be used to sense the clearance between the device and a nearby object, and thus can be used to measure objects by following the contours of the same. On co-

method, the velocity of gaseous fluids can be ascertained by keeping the distance between a nearby surface constant and using the changes in pressure to indicate

change the flow rate. In a further use of the device, it can be fixed in a relatively fixed position, and quickly

the heat of the current can be determined by be-

the weighing of a nearby plate-like part.

It will also be obvious that a

such device as described in the preceding

end can be used in connection with flexible components designed to hold a vessel,

such as a ship or other hovercraft, at a distance from surfaces other than horizontal surfaces,

such as a quayside wall or the like.

In a further application of the invention

nelsen, the device could advantageously be used in connection with airbag support

ted trains designed to run along the

down lanes. In such an application of this invention, the sensing device could

arrangement so that it interacted with one or more sides of the track, so that unwanted changes in the distance between the track and the device could be sensed and used to operate valve devices to

correct these unwanted effects.

Claims (7)

1. Sensing device for air cushion device for determining the distance between the device and the underlying surface, of the kind that includes a room or chamber which is bounded downwards by the ground surface and upwards by an appropriate flexible membrane, characterized in that the membrane is held between flexible walls (11, 12) which above the membrane are interconnected by a roof (2) and that the aforementioned parts are carried on and by a to the vessel and from this downwardly hanging snake-shaped skirt (1), which during the device's operation is kept inflated by means of compressed air, and that the compressed air from the skirt (1 ) is led through the roof (2) via a port (9) and down into a space between the membrane (10) and the walls (11, 12) and that the compressed air from there flows out through nozzles (15, 16) between the membrane (10) and the walls (11, 12) lower edge. 2. Device as stated in claim 1, characterized in that the snake-shaped skirt (1) is arranged with appropriately ring-shaped, accordion-like folds, which facilitate the deflection of the skirt to the side. 3. Sensing device as stated in claims 1 or 2, characterized in that more than one chamber (7) is used. 4. Sensing device as stated in claim 3, characterized in that the gaseous fluid flowing out from the nozzle or nozzles forms and maintains a cushion of gaseous fluid inside each of the chambers (7). 5. Device as stated in claim 3 or 4, characterized in that means (14) are arranged to hold at least part of said membrane in a specific position in relation to the supply channels. 6. Device designed to be used as stated in claims 3-5, characterized in that the gaseous fluid under pressure is supplied from a source independent of the skirt device. 7. Device as stated in claim 6, characterized in that at least one outflow nozzle supplies gaseous fluid to the chamber (7) or chambers (7, 7) which are partly formed by said nearby surface and partly by the membrane, with at least one outflow nozzle ( 15) adds gaseous fluid to said pad with a substrate effect.