DE9407053U1 - Signaling devices, in particular signal rockets - Google Patents

Description

Description:

The invention relates to a signaling device, in particular a signal rocket, according to the preamble of claims 1, 2 and 6.

Pyrotechnic signaling devices are used primarily in aviation and shipping to alert third parties to acute emergencies and impending dangerous situations. Signal rockets, which are usually fired by hand, and signal cartridges, which can be fired from a suitable signal pistol, are used for this purpose. Such signaling devices are also used as pyrotechnic lighting devices for airport apron lighting or for lighting during search and rescue operations at night.

The signal is fired from an outer tube in which the signal is housed. After firing, the signal exits the outer tube through a front side of the outer tube that is fitted with a snap-off closure, which is then removed from the signal.

The invention concerns a practical design of the closure on the upper face of the outer tube,

&iacgr;&ogr; which essentially has to meet two requirements. Firstly, the closure should be able to withstand mechanical stresses from the signal rocket, in particular a fall onto the upper front, without the unignited signal being able to slip out of the outer tube. Secondly, after the rocket has been ignited, the signal should be able to emerge from the front of the outer tube with as little resistance as possible, i.e. the closure should be easy to blow off.

Signaling devices are known in which the upper end of the outer tube, the end associated with the signal, is closed by one or more disks. For example, EP 0 277 275 Bl discloses a signal rocket of this type in which several individual parts, namely a cover disk in conjunction with a curved collecting disk, form a functional closure of the upper end of the outer tube. Although this design meets the requirements placed on the signaling device from a mechanical and ignition point of view, it is disadvantageous in terms of manufacturing technology. Signaling devices designed in this way can only be assembled with great effort.

Based on this, the invention is based on the object of creating a signaling device which has a reliable and functional closure which ensures simple production.

· 4

To solve this problem, the signaling device according to the invention has the features of claim 1. The one-piece design of the outer tube and cover simplifies the manufacture of the signaling device. In particular, the assembly of the previously usual, separate cover is no longer necessary.

According to an advantageous embodiment of the signaling means according to the invention, this has the features of claim 2

&iacgr;&ogr;. When force is applied to the cover in the opposite direction to the rocket launch, e.g. when the signal rocket falls onto the closed front, the constriction causes the cover to be deformed to a limited extent only in the elastic range. The cover is prevented from coming loose from the outer tube and the signal slipping out of the outer tube as a result.

In an advantageous embodiment of the signaling device according to the invention, it has the features of claim 6. The predetermined breaking point associated with the cover ensures that the signal emerges with as little resistance as possible when the signal rocket is ignited. The closure can be easily detached or blown off the cover, thereby reducing the recoil when the signaling device is fired.

Preferred developments of the invention result from the dependent claims and the description. Exemplary embodiments of the invention are explained in more detail below with reference to the drawing. The drawing shows:

Fig. 1: a longitudinal section through an upright parachute signal rocket,

&igr; Fig. 2 : a longitudinal section through an outer tube of the case-

Parachute signal rocket according to Fig. 1,

Fig. 3 : an enlarged partial longitudinal section through a closure of the parachute signal rocket according to

a first embodiment of the invention,

Fig. 4: a closure of the parachute signal rocket according to a second embodiment of the invention &iacgr;&ogr; in a view analogous to Fig. 3,

Fig. 5: a closure of the parachute signal rocket according to a third embodiment of the invention in a view analogous to Figs. 3 and 4,

Fig. 6: a closure of the parachute signal rocket according to another embodiment of the invention according to a detail VI of Fig. 2 in a view analogous to Fig. 3 - 5, zo

Fig. 7 : the closure of the parachute signal rocket according to Fig. 6 in deformed state,

Fig. 8: a closure of the parachute signal rocket according to another embodiment of the invention

tion in a view analogous to Fig. 3-7, and

Fig. 9: a cross section through the closure of the parachute rocket according to Fig. 8 after the section IX-IX.

Fig. 1 shows a signaling device designed as a parachute signal rocket 10. An elongated cylindrical outer tube 11 of the parachute signal rocket 10 has two opposing end faces 12, 13. The lower end face 13 has an opening 14. The opening 14 is closed by a base 15 which is detachably connected to the outer tube 11 and which has a manually operated trigger.

-δ&igr; 16 is assigned for ignition. Viewed in the direction of the rocket launch (arrow 17), a propellant charge 18 is located above the base 15 and above it a signal, namely a star set 19, with a parachute 20 folded over it. The upper end face 12 of the outer tube 11 is assigned a closure 21 designed according to the invention. Furthermore, the propellant charge 18 and the star set 19 are assigned ignitions, delay sets and intermediate sets designed in a manner known per se, which are not described in more detail here.

A closure 22 according to a first embodiment of the invention consists of a cover 23 which is integrally connected to a wall 24 of the outer tube 11 (Fig.

3). The cover 23 consists of two sections, namely a lower, cylindrical section 25 and an upper, conical section 26. The lower section 25 is dimensioned such that a predetermined breaking point 28 is formed in a transition area 27 between the cover 23 and the wall 24.

zo det. The predetermined breaking point 28 is thinner than the thickness of the wall 24, and so thin that when the parachute signal rocket 10 is ignited, the closure 22 can be easily released or blown off. On the other hand, however, the predetermined breaking point 28 is thick enough that when the parachute rocket 10 falls onto the closure 22, the cover 23 cannot come loose from the wall 24.

A closure 29 according to a second embodiment of the invention consists of a cover 30, the cover 30 having a lower, cylindrical section 31 and an upper, conical section 32 (Fig. 4). The cover 30 is formed in one piece with a wall 33 of the outer tube 11. In the lower, cylindrical section 31, the cover 30 is assigned a constriction 34. The constriction 34 is formed as a circumferential groove extending from the outside of a wall 35 of the lower section 31. The depth of the constriction 34 is several times greater than the thickness of the wall 33 of the outer tube.

&igr; 11. The depth of the constriction 34 is preferably about three times the thickness of the wall 33. The width of the constriction 34 is dimensioned such that when a force is applied in the opposite direction to the rocket launch, the deformation of the cover 30 always remains in the elastic range. Furthermore, the constriction 34 is arranged at a small distance from a bottom wall 36 of the cover 30. This creates a predetermined breaking point 38 in a transition area 37 between the cover 30 and the wall 33. The predetermined breaking point 38 or the distance of the constriction 34 from the bottom wall 36 is less than the thickness of the wall 33, in such a way that when the parachute signal rocket 10 is ignited, the closure 29 can be easily blown off.

Fig. 5 shows a further embodiment of a closure 39 according to the invention. The closure 39 consists of a cover 40 which is connected to a wall 41 of the outer tube. The cover 40 also consists of a

zo lower, cylindrical section 42 and an upper, conical section 43. An edge area 44 of the lower section 42 of the cover 40 is assigned a circumferential notch 45 adjacent to the wall 41 of the outer tube. The circumferential notch 45 starts from a bottom wall 46 of the cover 40. The notch 45 is V-shaped in cross section, with one leg of the notch 45 being formed by the wall 41. The notch 45 is therefore arranged in the transition area 47 between the cover 40 and the wall 41. The depth of the notch 45 is dimensioned such that a defined predetermined breaking point 48 is created in the transition area 47. The notch has an opening angle of 10° - 50°, preferably 30°. The opening angle of 30° has proven to be particularly advantageous from the point of view of a recoil-free opening of the bolt 39.

&igr; A combination of the embodiments according to Fig. 4 and 5 is shown by the preferred closure 21 according to Fig. 6. The closure 21 consists of a cover 49 which is formed in one piece with a wall 50 of the outer tube 11. The cover 49 consists of a lower, cylindrical section 51 and an upper, conical section 52. The lower section 51 is assigned a constriction 53 and a notch 54. The constriction 53 is formed from a wall 55 of the cover 49 as

‘ ...

Fig. 7 shows the mode of operation of the closure 21 designed according to the invention according to Fig. 6, when a force is applied in the opposite direction (arrow 17) to the rocket launch (for example, when the parachute signal rocket 10 falls onto the closure 21). When such a force is applied, the cover 49 is deformed in such a way that it gives way downwards, i.e. in the direction of the force.

The deformation of the cover 49 is limited by the width of the constriction 53. When the cover 49 is deformed to its maximum, the constriction 53 is compressed in the area of the wall 50 of the outer tube 11 in such a way that sections of opposite walls 59, 60 of the constriction 53 lie on top of one another. Outside the area of the wall 50, the constriction 53 forms a cavity 61. The design of the constriction 53 described above causes a circular ring of the cover 49 delimited by the wall 50 and the end of the groove to be deformed in a targeted manner. The depth of the constriction 53 or groove determines the width of the circular ring. In conjunction with the width of the constriction 53, the depth of the constriction ensures that the deformation of the cover 49 or the circular ring is limited and always within the

-δ&igr; remains elastic so that the predetermined breaking point 58 does not break.

A preferred design of a closure 62 from a manufacturing point of view is shown in Figs. 8 and 9. The closure 62 consists of a cover 63 which is formed in one piece with a wall 64 of the outer tube. The cover 63 consists of a lower, cylindrical section 65 and an upper, conical section 66.

&iacgr;&ogr; Analogous to the closure 21 according to Fig. 6, the lower section 65 is assigned a constriction 67 and a notch 68. In contrast to the embodiment according to Fig. 6, the constriction 67 is designed in a special way. Starting from a wall 69 of the cover 63, the constriction 67 is designed as a circumferential groove. The depth of the constriction 67 is several times, in particular twice, greater than the thickness of the wall 64 of the outer tube. However, the width of the constriction is thicker for manufacturing reasons than in the embodiment according to Fig. 6. However, so that the constriction 67 retains its functionality for limiting deformation of the cover 63, the same is assigned webs 70. The webs 70 are offset from one another by an angle of approximately 90° around the circumference of the constriction 67. When a force is applied in the opposite direction to the direction of the rocket launch, the webs 70 limit the deformation of the cover 63 and always keep it in the elastic range.

The invention discussed above can also be used with other signaling devices, for example Signal 1 cartridges. With signal cartridges, the signal is not fired from an outer tube, but from a cartridge case. The design of a closure of the cartridge case can be analogous to the embodiments according to Figs. 3-9.

Applicant:
Comet GmbH

Pyrotechnics equipment construction Vielander Weg

27574 Bremerhaven

27 April 1994/6723 COM-35-EN

Reference symbol

10 FaI 1 umbrella signal rocket

11 Outer tube

12 Front side

13 Front side

14 Opening

15 Floor

16 triggers

17 Arrow

18 Propellant

19 Star set

20 Parachute

21 Closure

22 Closure

23 Cover

24 Wall

25 Section

26 Section

27 Transition area

28 Breaking point

29 Closure

30 Cover

31 Section

32 Section

33 Wall

34 Constriction

35 Wall

36 Floor wall

37 Transition area

38 Breaking point

39 Closure

40 Cover

41 Wall

42 Section

43 Section

44 Margin area

45 Notch

46 Floor wall

47 Transition area

48 Breaking point

49 Cover

50 wall

51 Section

52 Section

53 Constriction

54 Notch

55 Wall

56 Floor wall

57 Marginal area

58 Breaking point

59 Wall

60 wall

61 Wood room

62 Closure

63 Cover

64 Wall

65 Section

66 Section

67 Constriction

68 Notch

69 Wall

70 Bridge

Claims (10)

Expectations; 1. Signaling means, in particular a signal rocket, with an outer tube for receiving at least one signal and with a cover for closing the end face of the outer tube associated with the signal, characterized in that the outer tube (11) and the cover (23, 30, 40, 49, 63) are formed in one piece. 2. Signaling means, in particular signal rocket, with an outer tube for receiving at least one signal and with a cover for closing the end face of the outer tube associated with the signal, in particular according to claim 1, characterized in that the cover (30, 49, 63) is associated with a constriction (34, 53, 67). &igr; - 10 - 3. Signaling means according to claim 2, characterized in that the constriction (34, 53, 67) is associated with a lateral wall (35, 55, 69) of the cover (30, 49, 63). 4. Signaling means according to claim 3, characterized in that the constriction (34, 53, 67) is designed as a circumferential groove extending from the outside of the wall (35, 55, 69). 5. Signaling means according to one or more of claims 2 to 4, characterized in that the depth of the constriction (34, 53, 67) is several times, preferably twice, greater than the thickness of a wall (33, 50, 64) of the outer tube (11). 6. Signaling means, in particular a signal rocket with an outer tube for receiving at least one signal and with a cover for closing the end face of the outer tube associated with the signal, in particular according to one or more of claims 1 to 5, characterized in that a predetermined breaking point (28, 38, 48, 58) is associated with the cover (23, 30, 40, 49, 63) and/or an end region of the outer tube (11) associated with the cover (23, 30, 40, 49, 63). 7. Signaling means according to claim 6, characterized in that the predetermined breaking point (48, 58) Notch (45, 54, 68) is formed. net that the predetermined breaking point (48, 58) is formed by a circumferential 8. Signaling means according to claim 7, characterized in that the notch (45, 54, 68) is associated with a bottom wall (46, 56) of the cover (40, 49, 63). - 11 - 9. Signaling means according to claim 7 or 8, characterized in that the notch (45, 54, 68) is associated with an edge region (44, 57) of the bottom wall (46, 56), adjacent to a wall (41, 50, 64) of the outer tube (11). 10. Signaling means according to one or more of claims 7 to 9, characterized in that the notch (45, 54, 68) has an opening angle of 10° to 50°, in particular 30°.