NO146236B - PROCEDURE FOR HYDROGENATION OF THE EXOCOCYLIC METHYL GROUP IN 6-DEOXY-6-DEMETHYL-6-METHYLENE-TETRACYCLINES - Google Patents

Description

Ignition device for fireworks.

Fireworks with cerium iron flints

known designs have either a wick when using liquid fuel,

or a burner nozzle when using gaseous fuel, e.g. propane or butane. As a one-handed operation of the lighter is preferred by the user, a mechanical operation of the necessary devices is designed in the lighter in such a way that the lighter and possibly the burner nozzle is opened by a push, push or turn movement and flame

but ignited by a spark, since .for that mean-

at the same time a spring is tensioned. At a free-

release of the movement takes place over the pre-tensioned spring, an automatic closing of the lighter, if necessary also of the burner

the nozzle. There are also sluice couplings or hem discs, with the help of which a backward movement of the flint wheel can prevent

res.

The Tenn shredding wheel must be thus

arranged in relation to the flint stone so that the ignition spark arising from the movement of the wheel is directed towards the wick or burner tip. The axis of the spark direction lies almost exclusively in a plane extending perpendicular to

axis of the wick or burner channel. The axis of the flint channel must be arranged below the axis arrangement of the flint test wheel

nothing. If the ignition wheel's axis, e.g. lies in a plane that is perpendicular to the burner channel

lens axis, then the flintstone channel is arranged axis-parallel to the burner channel. About-

turned, the flintstone channel can lie in a plane perpendicular to the burner channel and the ignition axis can be parallel to the burner channel

axis of the tweezers.

The invention thus relates to an ignition device for a kindling with gaseous fuel, where the friction wheel is arranged axially parallel to the axis of the gas channel and is driven by means of a drive attached to its shaft which engages in a likewise axial pa-

arranged parallel to the axis of the gas channel gear or toothed segment. The invention mainly consists in this gear simultaneously driving another drive, by the rotation of which the burner nozzle is opened, since, as is known in and of itself, a return spring is arranged, by the release of which the tooth-

the wheel is moved to its rest position.

Here the driving gear can be

an internally toothed wheel, in which the

know grips In from within. In this case, the outside diameter of this internally toothed wheel can be approximately equal to the outside diameter of the lighter housing and its outside can be provided with a knurling, so that the gear can be set in rotation by a thumb movement across the longitudinal axis of the lighter. The tooth wheel or tooth segment

however, it can also be an externally toothed wheel arranged in the interior of the housing,

in which driven, as in this case too

externally is covered by a round body, which intervenes from the outside. The round body which covers the drive, and which in this case, in the same way as in the case described above, can turn the gear wheel by means of a thumb movement, can be connected to the gear wheel so that it is driven by the rotation of the body. The body can also be fixed for-

bound with a carrier plate, in which dre-

vet's shaft is rotatably mounted, as the body

is rotatable about the gear wheel's axis, while the gear wheel itself is fixed in the lighter. In this case, the gear wheel is suitably attached to the gas or wick channel located in the central axis of the lighter. The toothed wheel or toothed segment can also be firmly connected to an arm protruding from the lighter's housing, so that by a swinging movement of the arm, which in turn is caused by a movement of the thumb across the lighter's longitudinal axis, the toothed wheel or toothed segment is turned. In this case, the toothed wheel is suitably rotatable around the gas or wick channel of the lighter.

In addition to the drive that serves for operation

of the tooth grater, there can also be arranged other drives driven from the tooth wheel ©lier tooth segment, with the help of which the burner and/or the lighter lid is opened and closed and/or the flint spring is tensioned. In all embodiments, there is suitably arranged a fixed or rotatably arranged carrier plate on the gas or wick pipe, which has one or more bores for the drive or drives and serves as a carrier for the flint stone. Furthermore, in the gear wheel or in the round body which surrounds the gear wheel there may be arranged grooves or recesses, in which a return spring is stored or in which a stop cam protrudes.

Examples of the embodiment of the invention are described in more detail below with reference to the drawing.

Fig. 1 shows a cross-section through the upper part of a device according to the invention along the line I—-I in fig. 3.

Follow 2 shows a cross-section of the same device along the line II—II in fig. 3. Fig. 3 shows a plan of the device 1 according to fig. 1 and 2. Fig. 4 shows a horizontal section along the line IV—IV in fig. 1. Fig. 5 shows a horizontal section along the line V—V in fig. 1. Fig. 6 shows a section through another embodiment of the device according to the invention. Fig. 7 shows a cross-section through a third embodiment of the device according to the invention. Fig. 8 schematically shows an embodiment in which the toothed wheel is moved by means of a heat exchanger.

According to fig. 1 is a support and cover plate 1 firmly connected to a gas or wick pipe 2 in a round fireware. In the gas or wick pipe 2 which runs outside a container or tank 32 for liquid gas 33, there is arranged either for gas operation a burner nozzle 12 which is movable over a spring 22, the pressure reduction device not being shown, while the nozzle is in rest position in the usual way is pressed downwards, or there is a wick arranged for petrol operation. An ignition wheel 3 is, by means of a screw 8, attached to a shaft 4 which is guided over a plastic bearing 5 through the plate 1. A drive 6 serves for the movement of the ignition wheel 3, as a hem disc 23 prevents its backward movement. The gear 6 is carried by the collar 4b of the axle 4 and is driven according to the invention by a gear wheel 7 with internal toothing, an external knurling 7c giving the wheel the necessary hold for a simple turning movement with the help of the thumb.

The storage of the gear wheel 7 takes place above a holding device 1g on the cover plate 1 and on this fixed counter ring disc 21. In a recess 7b in the gear wheel 7 there is arranged a return spring 19; in another extraction, a cam 21a placed on the ring disc 21 can limit the relevant arc of movement of the gear wheel 7.

On the cover plate 1, the flint stone 9 can be arranged in some manner known per se so that its front side is pressed against the ignition wheel 3, so that the ignition sparks are hurled in a radial direction towards the centrally arranged burner nozzle 12. Optionally, as shown in fig. 3 be arranged a bent flint channel 11 concentrically about the burner nozzle 12. The external collar 1f on the cover plate 1 serves for attaching the closing cap, not shown.

In order to be able to open the burner nozzle 12 at the same time when the ignition device is used, a spring 13 can be arranged which, as can be seen from fig. 2, is moved over a shutter wheel 14, with a pin 15 running over the shutter wheel's curved path 14a, so that the spring 13 can lift on the supported end 13b, so that the burner nozzle 12 opens under the influence of its spring 22. The pin 15 is f ested at the upper end of the shaft 4a, which has a further drive 6a which is moved by the gear wheel 7. The gear wheel 7 thus drives the two drives 6 and 6a at the same time. With the help of a third drive, an opening of the lid of the lighter or a tension of the flint spring could also be effected.

In a recess 7b in the gear wheel 7, a return spring 19 can be placed, one end of which is supported against a cam 7d on the gear wheel 7, and the other end of which is supported against a cam lh in the holding device lg as a counter bearing, so that in tension of the spring 19 the gear 7 swings back after being released. The movement of the fixed cam 32a inside the second recess 7b' limits the size of the angle of rotation of the wheel 7, as this angle of rotation must be adapted to the rotation of the two drives 6 in accordance with the angle of rotation of the hem disc 23 or of the curve 14a on the closing wheel 14, provided that these two are provided with a suitable freewheel for the return movement. The two recesses 7b can optionally also be arranged on the upper end of the gear wheel 7 under the cover plate 1.

Fig. 6 shows a similar embodiment, in which, however, for operation of the drive 6, instead of an internally toothed wheel, an externally toothed wheel 7 is used, in which the drive 6 engages from the inside. This externally toothed wheel is firmly connected to a round body 16 which surrounds the drive, or can be made in one piece with the body 16, the latter's outside in the same way as in the previous example the outside of the toothed wheel 7 is provided with a roughening, so that the body 16 can easily be turned by a thumb movement and thereby the drive 6 is driven over the toothed wheel 7, so that the toothed wheel 3 turns. All other parts can be designed in the same way as in the previous example and are therefore only indicated schematically.

Another embodiment is shown in Fig. 7. Here, the round body 16 is firmly connected to the cover plate 1 by means of screws 21, so that the cover plate also participates in the rotation of the round body. In this rotatable cover plate, in the same way as in the previous examples in the fixed cover plates, the axle 4 of the sprocket 3 is supported, and on this axle there is again a drive 6. The sprocket 7 with external toothing is in this embodiment arranged fixedly on gas-eners the wicking tube 2 and thus does not participate in the rotation of the round body 16 and of the cover plate. When the body 16 rotates, the gear 6 therefore runs in plania taktlg around the gear wheel 7, as it rolls off on this, so that the ignition gear 3 is turned and at the same time moved around in a circular arc around the burner nozzle 12. Then here, as in the previous example, the ignition sparks move radially towards the center point , despite this circular arc movement, they always hit the gas exit point of the burning nozzle. The other parts, such as the flint test, return spring and stop cams can be made in the same way as in example 1.

Fig. 8 schematically shows a cross-section through an embodiment in which the gear wheel 7 which can be rotated around the gas channel is movable by means of a drive arm 27 attached to the same, which thus moves instead of the roughness on the surface of the body 16. If the rotation of the gear wheel 7 is limited either as a result of the swing area of the arm 27 or by means of the stop cam 32a, then it is not necessary for the gear wheel to be provided with teeth on its entire circumference, since

can be made as a tooth segment which is only provided with teeth on an arc corresponding to its swinging movement. Here, an eccentrically mounted drive arm can also be arranged which sets the drive 6 in a turning movement over a bent toothed rack.

The device according to the invention is particularly suitable for a round lighter with a small diameter for operation in one hand using the thumb. The invention is not limited to round fireworks, but is also suitable for fireworks e.g. with an oval or rectangular cross-section when the gear wheel 7 or the round body 16 can be constructively arranged in such a way that its movement about the required angle of rotation is possible.

Claims (8)

1. Ignition device for a lighter with gaseous fuel, where the friction wheel is arranged axially parallel to the axis of the gas channel and is driven by means of a drive attached to its axis which engages in a gear wheel (7) or tooth segment also arranged axially parallel to the axis of the gas channel, characterized in that this gear simultaneously drives another drive (6a), upon whose rotation the burner nozzle (12) is opened, where, as is known per se, a return spring (19) is arranged, upon the release of which the gear (7) is moved to its rest position. 2. Ignition device as stated in claim 1, characterized in that the second drive (6a) drives a shaft (4a), on which a pin (15) is placed which, when the shaft (4a) is turned, runs over the curved path (14a) of a shutter wheel (14), since the shutter wheel and with this a spring can lift, so that the burner nozzle (12) is opened. 3. Ignition device as indicated in claim 1, characterized by the attann wheel (7) is an internally toothed wheel which engages from the outside in the drives (6 and 6a). 4. Ignition device as stated in claim 1, characterized in that the toothed wheel or the toothed segment is an externally toothed wheel, in which the drives (6, 6a) which are externally covered by a round body (16) engage from the outside. 5. Ignition device as stated in claim 4, characterized in that the round body (16) which covers the drives is connected to the gear wheel (7), and that the gear wheel is driven by means of this round body. 6. Ignition device as stated in claim 4, characterized in that the round body (16) which covers the drives (6, 6a) is firmly connected to a carrier plate (1), in which the shafts (4, 6a) of the drives (6, 6a) 4a) is rotatably mounted, the round body and the carrier plate being rotatable about the axis of the gear wheel (7), while the gear wheel (7) itself is fixedly arranged in the lighter. 7. Ignition device as stated in claim 4, characterized in that the tooth wheel or the tooth segment is firmly connected to a drive arm (27) which protrudes from the lighter's housing. 8. Ignition device as specified in claim 6, characterized in that the gear wheel (7) is attached to the gas channel (2) located in the central axis of the lighter.