Abstract
Firework accommodating apparatus comprising a shaped body with an upwardly open recess and a first open bore at the bottom in the shaped body, which is situated centrally, wherein a second bore having a smaller diameter is preferably located next to the first bore, wherein in the first bore, preferably a continuous bore or hollow bore, preferably a rod, a so-called guide rod can be fastened and having at least two lateral cylindrical hollow bores in the shaped body or instead of the hollow bores, downwardly inclined wings.
Claims
1. A firework accommodating apparatus comprising: a shaped body with an upwardly open recess and a first open bore centrally located at a bottom in the shaped body, the shaped body further comprising a second bore having a smaller diameter than the first bore, wherein the second bore is located adjacent to the first bore; a firework that is connected to the firework accommodating apparatus, said firework comprising at its bottom a guide rod, a lift charge and a burst charge; wherein the first bore is adapted to receive the guide rod; and the shaped body has at least two lateral cylindrical hollow bores or two downwardly inclined wings and the shaped body has an electronic unit with at least one sensor for measuring the Earth's magnetic field.
2. The firework accommodating apparatus according to claim 1, wherein the first open bore at the bottom of the shaped body has a cylindrical hollow extension.
3. The firework accommodating apparatus according to claim 1, wherein the shaped body forms a hollow hemisphere.
4. The firework accommodating apparatus according to claim 1, wherein the position of the shaped body is determined in three-dimensional space by processing radio signals from communication or navigation satellites.
5. The firework accommodating apparatus according to claim 1, wherein the shaped body has a sensor for determining acceleration.
6. The firework accommodating apparatus according to claim 1, wherein the sensor for determining the Earth's magnetic field is mounted obliquely to a longitudinal axis.
7. The firework accommodating apparatus according to claim 1, wherein the at least one sensor has a first magnetic field sensor whose active surface is aligned perpendicularly to a longitudinal axis and a second magnetic field sensor whose active surface is aligned horizontally to the longitudinal axis.
8. The firework accommodating apparatus according to claim 1, wherein the shaped body has an apparatus that is adapted to set a time of firing of a burst charge.
9. The firework according to claim 1, wherein the firework is cylindrical or at least partially conical and has grooves turned in an outer side of the firework.
10. A method for launching a firework having a firework accommodating apparatus according to claim 1, the method comprising the step of inserting the firework in a mortar for launching which is positioned and fixed in an elevated position so that the guide rod of the firework can project downwards without touching ground.
11. The method for launching a firework according to claim 10 wherein the mortar has a base with an opening for the guide rod in a center of the mortar and that a mortar tube extends downwards, wherein the mortar tube is open at the bottom or can be closed by the base wherein when the mortar tube is fitted with the base, the mortar tube can have a closable opening in the base so that a lower tube piece can be cleaned.
12. The method for launching a firework according to claim 10 wherein the mortar has helical grooves or the mortar has a polygonal structure in order to set the firework in rotation.
13. A firework accommodating apparatus comprising: a shaped body with an upwardly open recess and a first open bore centrally located at a bottom in the shaped body, the shaped body further comprising a second bore having a smaller diameter than the first bore, wherein the second bore is located adjacent to the first bore; and a firework that is connected to the firework accommodating apparatus; wherein the first bore is adapted to receive a guide rod; and the shaped body has at least two lateral cylindrical hollow bores or two downwardly inclined wings and the shaped body has an electronic unit with at least one sensor for measuring the Earth's magnetic field; and a sign is formed by metal salts which produce colour effects.
14. A firework accommodating apparatus comprising: a shaped body with an upwardly open recess and a first open bore centrally located at a bottom in the shaped body, the shaped body further comprising a second bore having a smaller diameter than the first bore, wherein the second bore is located adjacent to the first bore; a firework that is connected to the firework accommodating apparatus; wherein the first bore is adapted to receive a guide rod; and the shaped body has at least two lateral cylindrical hollow bores or two downwardly inclined wings and the shaped body has an electronic unit with at least one sensor for measuring the Earth's magnetic field; and an energy supply for the electronic unit is provided by capacitors.
15. The firework according to claim 14, wherein the electronic unit is programmed with parameters before launching wherein these data are stored in a non-volatile manner in the electronic unit, in a flash memory or an electrically erasable programmable read-only memory (EEPROM).
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) FIGS. 1 and 1-1 show a longitudinal section of the firework accommodating apparatus according to the invention;
(2) FIG. 2 shows a top view of the firework accommodating apparatus according to the invention;
(3) FIG. 3 shows a bottom view of the firework accommodating apparatus according to the invention;
(4) FIG. 4 shows a perspective view of the firework accommodating apparatus according to the invention;
(5) FIGS. 5 and 6 show side views of the firework accommodating apparatus according to the invention;
(6) FIGS. 7 and 7-1 show longitudinal sections of the firework accommodating apparatus according to the invention from the side;
(7) FIG. 8 shows a side view of the firework accommodating apparatus according to the invention from FIGS. 7, 7-1 in a mortar ready for launch;
(8) FIG. 9 shows a side view of the firework accommodating apparatuses according to the invention from FIGS. 7, 7-1 in a mortar rack; and
(9) FIG. 10 shows a side view of the firework accommodating apparatus according to the invention from FIGS. 7, 7-1 with guide rod in a holder for an individual mortar in the form of a tripod.
DETAILED DESCRIPTION OF THE DRAWINGS
(10) FIG. 1
(11) FIG. 1 shows the firework accommodating apparatus according to the invention in longitudinal section, where the funnel-shaped structure can be seen. Here is the recess 7 as well as three lateral cylindrical hollow bores 2 in the shaped body as well as the first centrally located bore 4 in which the guide rod can be inserted, wherein this first bore 4 is located inside the cylindrical extension 3 of the firework accommodating apparatus, wherein the second bore 5 having a smaller diameter through which the supply line for the e-match can be guided is located at the edge of the hexagon 1 recess 6. According to one alternative, instead of the hollow bores 2, the shaped body has at least two downwardly inclined wings 21.
(12) FIG. 1-1
(13) FIG. 1-1 shows the firework accommodating apparatus according to the invention in longitudinal section, where the funnel-shaped structure can be seen. The upper figure is the section A-A of the lower figure. Here is the recess 7 as well as lateral cylindrical hollow bores 2 in the shaped body as well the first centrally located bore 4 in which the guide rod can be inserted, wherein this first bore 4 is located inside the cylindrical extension 3 of the firework accommodating apparatus, wherein the second bore 5 having a smaller diameter through which the supply line for the e-match can be guided is located at the edge of the hexagon 1 followed by the recess 6. The recess 6 adjoins a hexagonal recess 8 in which an electronic unit 18 with a sensor 19 for measuring the Earth's magnetic field is accommodated. The electronic unit further comprises capacitors 26, as well as a flash and EEPROM memory 27 and an apparatus 23 to set the time of firing.
(14) FIG. 2
(15) FIG. 2 shows the firework accommodating apparatus according to the invention viewed from above, where the three lateral cylindrical hollow bores 2 in the shaped body as well the first centrally located bore 4 in which the guide rod can be inserted, wherein this first bore 4 is located inside a hexagonal recess 8 in which the electronic unit 18 with a sensor 19 which may include first and second magnetic field sensors 22 for measuring the Earth's magnetic field (see FIG. 1-1) is located, wherein the second bore 5 having a smaller diameter through which the supply line for the e-match can be guided is located at the edge of the hexagonal recess 8.
(16) FIG. 3
(17) FIG. 3 shows the firework accommodating apparatus according to the invention viewed from below, where the three lateral cylindrical hollow bores 2 in the shaped body as well the first centrally located bore 4 in which the guide rod can be inserted, wherein this first bore 4 is located inside a hexagonal recess 8 in which an electronic unit can be disposed, wherein the second bore 5 having a smaller diameter through which the supply line for the e-match can be guided is located at the edge of the hexagonal recess 8.
(18) FIG. 4
(19) FIG. 4 shows the firework accommodating apparatus according to the invention in perspective view, where the funnel-shaped structure can be seen, wherein two lateral cylindrical hollow bores 2 in the shaped body as well the first centrally located bore 4 in which the guide rod can be inserted, wherein this first bore is located inside the cylindrical extension 3 of the firework accommodating apparatus.
(20) FIG. 5
(21) FIG. 5 shows the firework accommodating apparatus according to the invention 9 from the side in plan view, where the firework accommodating apparatus according to the invention 9 with firework comprising a burst charge 24, two hemispheres 10 and the connecting line 11 between the two hemispheres 10 and guide rod 16 can be seen.
(22) FIG. 6
(23) FIG. 6 shows the firework accommodating apparatus according to the invention from the side in plan view, where the firework accommodating apparatus according to the invention 9 with firework comprising two hemispheres 10 and the connecting line 11 between the two hemispheres 10 and guide rod 16 can be seen, wherein in addition the lift charge 25 located in a hose 17 placed around the firework accommodating apparatus 9 can also be seen.
(24) FIG. 7
(25) FIG. 7 shows the firework accommodating apparatus according to the invention 9 as a longitudinal section from the side, where the firework accommodating apparatus according to the invention 9 with firework 10 with effect composition in the form of the letter G 12 can be seen which is horizontal with respect to the observer. Furthermore a section through the hose 17 of the lift charge filled with black powder can be seen and the lateral cylindrical hollow bores 2 in the shaped body and the guide rod 16 can be seen.
(26) FIG. 7-1
(27) FIG. 7-1 shows the firework accommodating apparatus according to the invention 9 as a longitudinal section from the side, where the firework accommodating apparatus according to the invention 9 with firework 10 with effect composition in the form of the letter G 12 can be seen which is now facing away from the observer. Furthermore a section through the hose 17 of the lift charge filled with black powder can be seen and the lateral cylindrical hollow bores 2 in the shaped body and the guide rod 16 can be seen. Further, the firework can be cylindrical or projectile-shaped and has grooves 28 turned in the outer side.
(28) FIG. 8
(29) FIG. 8 shows the firework accommodating apparatus according to the invention from FIGS. 7, 7-1 from the side in a mortar 13 ready for launch, where the firework accommodating apparatus according to the invention with firework, with the sign for display in the sky, the firework and the guide rod 16 can be seen.
(30) FIG. 9
(31) FIG. 9 shows the firework accommodating apparatuses according to the invention from FIGS. 7, 7-1 from the side in a mortar rack 14, i.e. a mortar battery ready for launch, where the firework accommodating apparatus according to the invention with the sign for display in the sky, the firework and the guide rod 16 can be seen.
(32) FIG. 10
(33) FIG. 10 shows the firework accommodating apparatus according to the invention from FIGS. 7, 7-1 with guide rod 16, from the side in a holder for an individual mortar 13 in the form of a tripod 15 with standing platforms at the end of the legs (not visible) which distribute the enormous forces produced during launching over a larger area.
