DE2249444B2 - Gas generator for optional downward gassing and upward gassing - Google Patents

Description

5. Gas generator according to one of the preceding opening open, closure for downward gassing claims, characterized in that the outlet nozzle has and below the mouth of the ₄₀ outlet nozzle in the combustion chamber (53) can be shut off.

opening nozzles (62) just above the In the gas generator according to the invention is for

Fuel deposit (18) in the area of the glow zone upward gassing shut off the main pipe below and

Cherishes. the outlet nozzle is open. Now one can

6. Gas generator according to one of the preceding air or gas draft from the nozzles upwards through claims, characterized in that the ₄₅ the combustion space, through the main pipe ir nozzles (62) through which the serpentine channels around the gas generator take place,
arranged gas channels (10). throttled and the carburetor air for downward

7. Gas generator according to one of the preceding gassing is sucked through the case opening, whereby claims, characterized in that on the _{50 of} the smoke outlet is inhibited upwards. When the combustion chamber (53) is closed at the bottom with a lid, the air supply, which closes the air supply, is returned to normal with the rotatable main pipe (37).

rigidly connected fuel depository (18)

foldable drivers (22) are provided. pipe and the main pipe only additional ver

8. Gas producers with wavy ring ₅₅ gasungsluft room in the combustion. If be clear for the gases after one of the previous downward gassing takes place and in de; Continuing claims, characterized in that the glow zone creates a negative pressure when the gas channels (10) are switched on in the vertical direction upward gassing, whereby the ash bath is of different lengths and is arranged so that it and the embers above it loosen.

only at the level of the glow zone of the combustion 60 The invention also provides that the next one

Room (53) and the ash bath room (25), other arranged gas channels in a vertical row

lie next to each other and alternately upward device of different lengths and are arranged in such a way that

and protrude downwards (FIG. 2) over it. the gas channels only at the level of the glow zone of the Ver

the combustion room and the ash bath room

65 side by side and up and down

The invention relates to a gas generator for optional also protrude. The channels practice against each other

wise downward and upward gassing, with the under fly ash and heavy unprocessed gas product

a combustion room an ash bath room a resistance that the gas exits

from the channels are neither subjected to further cleaning nor to water separation got to.

In the case of the gas generator according to the invention, coals are to be crushed to the size of apples, and semolina that occurs and dust goes with it. This gas generator is also suitable for all combustible waste that occurs. For example, you can use rotten wood, wood shavings, wood dust, sawdust, peat waste, coal dust, Oil waste from car and machine repair shops and the like garbage waste etc. with higher quality Mix fuels. You can also mix in shredded unusable vehicle tires. The different The flashpoints of a fuel mixture are irrelevant. Fuel gas is always smokeless generated. The gas generator in the present size is sufficient for small businesses and especially for Suitable for the wood industry. It supplies gas engines or gas turbines, generates hot water and steam, as well Bottled gas for household use and vehicles.

In the drawing, a preferred embodiment of the invention is shown schematically and shows

1 shows a vertical section through a gas generator arranged around the gas generator Channels,

FIG. 2 shows a development of the channels according to FIG. 1,

F i g. 3 shows a schematic cross section through the gas generator according to FIG. 1 at different heights, 4 shows a cross section through the channels,

5 shows a longitudinal section through an air supply nozzle,

6 shows a cross section through the gas generator according to FIG. 1, showing the connection of air supply nozzles to a common air supply pipe,

7 shows a section through an air intake valve and

8 shows a section through a further air intake valve.

According to FIG. 1, a U-shaped flange for seat and sealing is at the top of a gas generator an upper part 2 is provided, the filling opening for the fuel is as small as possible. The filling opening can be closed by means of a cover 3. On an extension pipe 8 that leads to a main pipe 37 leads, two hooks 4 are provided, which are used to receive a pull rope for pulling up the entire Serve the lower part for the purpose of a seldom required general cleaning. The top is together to remove with a guide bar 5, on which the extension tube 8 when shaking turns. Below the filling opening two sluice plates 6 are provided, which with both sides of the upper part 2 provided lock levers 7 are adjustable. The sluice plates 6 are intended for large systems, but can also be dispensed with there if a correspondingly small one Filling opening is selected. The sluice plates 6 are initially closed for filling and only opened when when the filling opening is closed again by the cover 3.

The extension tube 8 is closed at the top with an end screw 9, which goes through Cleaning the pipe is removed. Gas ducts 10 are provided around the gas generator, the development of which is shown in FIG. In the main pipe37 there are three openings at the top provided by slots measuring approximately 10 X 4 cm.

A space 53 is used to receive fuel and a space 25 takes an ash bath and above located embers.

A provided on the extension pipe 8, the main pipe 37 surrounding protective jacket 12 is against Deformation by heat is secured by means of iron rods between the protective jacket and the main pipe 37. The protective jacket 12 protects the openings 11 against the ingress of fuel. Lead into room 53

Nozzles 62, one of which is shown in more detail in FIG. 5, and each having a nozzle pipe 13 , a nozzle head 13 a, a screw nut 14 with a sealing washer and a further pipe 15. The nozzle parts are described in more detail in connection with FIG. 5. At the upper and lower ends of the gas ducts 10 screws 16, approximately 10 cm in diameter, are provided in order to be able to clean the gas ducts from fly ash and heel. In the area of the nozzles there is a heat store

ao serving stabilization space 17, which is explained in detail under FIG. 2. A fuel tray 18 is connected to a protective jacket 19 and reinforced by iron rings 18 α. The protective jacket 19 allows only gas and fly ash through and

j ₅ is secured against deformation with iron rods 19 α. An entry point 20 into a suction nozzle 21 is provided. The suction nozzle 21 is also secured against deformation by iron rods 21 a , which are provided between the main pipe 37 and the suction nozzle.

On the fuel tray 18, foldable drivers 22 are provided, which are in the joints have plenty of leeway to stay mobile in the embers. The drivers 22 are used to loosen up and for cleaning. In the case of shaking movements, a shaking lever 42 is rotated to the right, with completely turn over the carrier and thereby the ash bath and the embers above loosen. - Ash or slag grit, depending on the fuel, can occasionally be closed over Remove cleaning hatches 23. For this purpose, a double ratchet is turned to the left by means of the vibrating lever 42 placed and the lever 42 rotated piece by piece to the left, with the driver standing up until the Cleaning is complete. The cleaning hatches 23 are closed by a lock 24.

The gas is drawn through the gas-processing chamber 25, which receives the ash bath, to the entry point 20, after which the ash bath bottom 26 carries the gas heated. A sliding plate 27 is through about six connecting pieces 28 with the side wall of the Ash bottom 26 connected. On the side wall of the ash bottom 26 are about three screws 29 for Cleaning provided with the ash bottom extended.

An ash and gas discharge funnel 30 is provided below the slide plate 27. It's a union 31 provided for a pressure switch. A filling space 32 is created after each assembly for the purpose of sealing Filled with ash and thus prevents the gas being vented directly downwards. An angled one Ring 33 closes the filling space 32 from below. Through a channel 34, the z. B. 8 X 16 cm in cross section is, the gas enters the channels 10. Below is an ash tray 35 is provided, which has a Cleaning hatch 36 is accessible with lock. The gas extraction must be interrupted during ash removal, if no lock device is provided. The main pipe 37 has an enlarged

Extension 38, which has a rotatable tube 15 for the slide seat, which is attached to the gas insert at both ends 46 picks up. generator is welded. For disruption reasons and

On the extended extension 38 a pipe is provided, even at the expense of uneven distribution, the reinforcement 39 with a support approach is provided. To attach a nozzle to the duct walls.
Washer ring 40 on which the pipe reinforcement 5 rotates around the gas generator 39 according to FIG Struts 41 end with a ring in the middle. Air supply pipe 63 ends. The air supply is prevented. The vibrating lever is used for actuation tube encloses the gas generator and has a right and left ratchet (double ratchet) and a distance 64 from it. According to FIG. At the bottom of 62, which open into space 53, and lower nozzles of the extension, a screw-on air intake is provided, which open into space 25. Both tube 44 is provided, which has a flip lock 44 α adjustable by screw for the upper nozzles as well as for the lower nozzles. An air supply pipe 63 is provided for the latter. In Fig. 6 dispensable in the case of an electromagnetic lock, such as 15, cleaning openings 65 with inspection glasses are also shown under FIG. 7 is explained. shown making a check of the inside of the nozzles

An outlet nozzle 45 on the extension 38 for allow.

in the case of upward gassing in the ash tray 35- According to FIG. 7, the air intake pipe 44 is covered with the gas and fly ash, the extended one flap closure 44 α (non-return flap) extension 38 to the half according to arrow 45 a. Also see ao. There are magnetic poles 66 with connecting wire, the tube insert 46 is provided at the top by a cover, closed around the flip lock 44 α 47 half covered. It can be controlled with a crank 48. For special cases, the air intake valve can be seen, which receives a guide rod 49, which is shown in FIG. 8 suitable. The air intake pipe 44 is connected to a flap 49 α . provided with two threads. On one is one

The gas generator is switched as shown in FIG. 1 for upward 25 union nut with a plastic ball valve 67 gassing. If you turn the air intake pipe 44 screwed. The other thread is one over to the right, so the crank 48 is screwed over the screw nut with a sight glass 68. A guide rod 49 the flap 49 α and the half shut-off wire 69 is used to hold back the valve cover 47 passes under the half cover ball 67.

according to arrow 45 a. As a result, the air path is upwards. Most expediently, the air intake valve is free for downward gassing. The switching can be done by yourself. see, the nozzle connection is unnecessary

A union nut50 possibly with a sealing washer according to FIG. 6. The embers are checked by

holds the tube insert 46 and is the flap when dismantling the one with one hand by means of a pen

Main body. The tube insert 46 has 35 push back and one with the other hand

a thread reinforcement 51. Hold the gas generator mirror at an angle to the opening. Is the inside

rests on four feet 52. The nozzle end is blind, you push it with an iron rod

Fig. 2 shows the arrangement of the channels 10. As the slag heel through; but this rarely happens

Heat accumulators are used for charging spaces 55 against the temperature.

shrinkage in the ducts. At the charging ₄₀ In the case of downward gassing, the access port 45 is closed by means of the aftertreatment valve 49 α and the air chamber 56 is connected to it. Of the screws 16, only a part of the suction pipe 44 is shown by means of the flip lock 44 a . The charging spaces 55 are open at the level of the. The cover 47 is pushed aside, nozzles for constant heating. Excessive temperatures to clear the air. Air flows through the air intake pipe 44 and the main pipe 37 via partial gas conversion. In this the opening 11 into the space 53. In the space 53 case, a temperature regulator can also flow air through the upper nozzles 62 to the air intake. The valves according to FIG or shutdown of some of the valves. Room 25. In the room 25 can be supplied through the lower At the beginning of the channels 10 is a gas inlet 57 α ₅₀ nozzles 62 also air. From and at the end of the channels a gas outlet 57 b in front of space 25, the gas passes through the entry point 20. The diameter of the channels decreases in the space under the sliding plate 27. From there from left to right. The diameter is e.g. B. for the gas flows through the channel 34 into the channels 10. the first three channels 16 cm and for each of the three channels 15, 14, 13, 12, 11 and 10 cm. ₅₅ opened and the air intake pipe 44 closed. air

According to Fig. 3, the gas generator from the inside only passes through the upper nozzles and the lower the following parts to the outside: The main pipe 37. Nozzles 62 a. The cover 47 is in locks Tube insert 46, the extension 38, the lung. The gas in space 53 overflows Protective jacket 12 and the suction nozzle 21, the openings 11, the main pipe 37 and the protective jacket off 19, the sliding plate 27, the ring 33, 60 step stubs 45 in the ash storage space 35 and from the basket rim 58, the one with the gas generator inner wall there in the channel 34. The one located in the space 25 59 forms the filling space 32, the outer wall 60 of the gas is partially pressed into the space 53 and ge channels and a thermal protection 61 reaches beyond the entry point 20 in the

The in F i g. 5 air space shown in natural size under the sliding plate 27 and from there in the feed nozzle has the nozzle pipe 13 with an e ₅ the channel 34.

Thread reinforcement, the nozzle head 13α from high- In a modification of the training shown in Fig. 2

heat-resistant material, e.g. B. soapstone, the manure of the channels 10, the storage rooms 55, Screw nut 14 with sealing washer and the tube that form a stabilization space, also designed in this way.

et be that between two post-treatment tien 56 each horizontal serpentine deeds are provided. The gas then flows through in the vertical direction a post-treatment room passes from there into a horizontal snake conveyor

medium channels through which it flows in order to then reach a post-treatment room What is important is that with downward gassing there is an increase in gas in the area of the annealing zone and the As Space takes place.

For this purpose 4 sheets of drawings

Claims (4)

is provided, and the one main pipe leading up to the VerPatent claims: combustion chamber and below 1. Gas generator for either downward and an air intake pipe, via which in downward-upward gassing, in which air is sucked in under a combustion gassing, and in which the gas supply space an ash bath space is provided 5 from the combustion space via the Space under which is, and the one flows up to the incineration ash bath space in serpentine channels. Main pipe leading to the room and an air pipe below, which are arranged around the gas generator,
has suction pipe, through which a known (German patent 748 747) air is sucked in during downward gassing, and in which the gas from the gas generator of this type is only suitable for downward gassing combustion space above the space below the 10. However, it is sometimes advisable to work ash bath space in serpentine channels with upward gassing, because downward flows, the gassing arranged around the gas generator are solid with different fuels, characterized in that it tends to suck in, so that it is necessary to do this sucked up the combustion space (53) and loosen in the ash fuels, which can be achieved by upward gassing bath space (25) from the wall (59) nozzles 15. (62) open and for upward gassing that is now to be mentioned that it is known (Austrian more gas-carrying main pipe (37) one in patent specification 152 573), a main pipe of a gas space under the ash bath space (25) min- generator, which is also the air supply is used, Denden open for Abwärtsgasung capping means to move and thus has the cash outlet port (45) as well as to control _sub-ao air dosage of a lever. Finally, half of the outlet connection (45) can also be shut off. known ("extracts from German patent applications", 2. Gas generator according to claim 1, characterized in 1. Xl. 1949, p. 358, para. 6), gas channels marked as a ring that the spaces in a known manner to be arranged in a wave-like manner. main pipe (37) rotatable by means of a lever (42). An object of the invention is to provide a gas lower Half of the end of a cover (45 α) as a generator for optional downward and upward has and to create his other half from a gassing. The invention will then too Cover (47) can be closed, which form such a gas generator on such that it fixed pipe insert (46) is attached. can be changed with the simplest possible means. Of the 3. Gas generator according to claim 2, characterized in that the gas generator should be characterized for a wide variety of burners in that one at the outlet connection (45) 30 materials are suitable and, with good effectiveness, the flap (49 a) provides a high-quality gas via a degree of guidance. rod (49) and a crank (48) with the ab- The invention provides a gas generator of the beginning cover (47) is connected. mentioned type, which is characterized by 4. Gas generator according to claim 1, characterized in that in the combustion chamber and in the ashes that each of the nozzles (62) _{open electro- 35} bath-room from the wall nozzles and magnetically and by means of a flap closure (44 a) for upward gassing is now gas-carrying main closable. pipe one into the space under the ash bath room