AU3783700A - Electronic-controlled fireworks lamp assembly and method for manufacturing the same - Google Patents

Description

S&F Ref: 503500

AUSTRALIA

PATENTS ACT 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT

ORIGINAL

Name and Address of Applicant: Actual Inventor(s): Address for Service: Limin Liu Rm. 421 Building 63 Beiwencui Road, Donglin District Shenyang City of Liaoning 110015 China Limin Liu Spruson Ferguson St Martins Tower 31 Market Street Sydney NSW 2000 Electronic-controlled Fireworks Lamp Assembly and Method for Manufacturing the Same Invention Title: The following statement is a full description of this invention, including the best method of performing it known to me/us:- 5845c Electronic-controlled Fireworks Lamp Assembly And Method of Manufacturing The Same The present invention relates to a lamp assembly. In particular the present invention relates to a lamp assembly which can simulate the explosion process of fireworks and the manufacturing method thereof.

Conventional fireworks is a cardboard cylinder filled with powder and oxidizer, which flies up to the air and produces flames of various colors after being fired, making festival atmosphere more warm. However, it has several drawbacks, including high production cost, causing environment pollution, to possibility of injuring people and even causing fire disaster and the possibility of exploding and burning during its production and transport.

Therefore, setting off fireworks is prohibited in many cities, and so the festival warm atmosphere is reduced dramatically. It is desired that there is a product, which can produce the same effect as conventional fireworks but has no above drawbacks.

The object of the present invention is to provide an electronic-controlled fireworks lamp assembly and its manufacturing method which can simulate the entire explosion process of conventional fireworks of powder-type and replace them therefore.

c The object of the present invention is achieved by an electronici controlled fireworks lamp assembly, including an emitting framework, a supporting ball, radiating levers and a controller. The emitting framework is connected to radiating levers via supporting ball, the radiating levers are bent into such a shape as to produce the effect of fireworks explosion. The explosion lamp and flashing lamp are attached to the radiating levers. The controller is connected with firing lamps, explosion lamps and flashing lamps.

Alternatively, the radiating levers can be straight levers to which explosion lamp and flashing lamp attach. The emitting framework is consisted of metal tubes or metal supports to which firing lamps attach. The supporting ball is a .~oC metal support of spherical shape having a plurality of installing bores therein.

Explosion lamps are arranged on at least three spherical layers radically outward from the center of the ball. The radiating levers are connected to the supporting ball by inserting them into the bores of the supporting ball directly.

i The manufacturing method of the electronic-controlled fireworks lamp i.-assembly is as follows: Firing lamp is composed of colored tubes made of rigid plastics with high strength; the interior of the tubes is provided with rows of light-emitting bodies and lead the extension line out; the ends of the tubes are sealed tightly with adhesive; these tubes can constitute emitting framework itself, or can be used in combination with radiating levers; The &emitting framework can be designed into the shape of the block, lever or artistic model, it can flash upward or do not flash; and the framework can be colored lamp or colored cylinder in which electrical wires and controller are provided; the supporting ball is an explosion center in which bores are provided for radiating levers passing through; the supporting ball can be L'.provided at a plurality of locations on the emitting framework or radiating levers, producing many explosion centers, and the controller in the emitting framework can control these centers and make them explode and radiate successively. The shape of radiating levers can be curved, straight and overlapping and the levers have different length that can be combined into many geometry such as spherical shape and fan shape. The cross-section of the radiating levers can be circular, flat or special shaped. Explosion points explode outward successively taking the supporting ball as explosion center and supporting balls can be arranged on upper, middle and lower part of the lamp assembly as well as on radiating levers and be used for the second and third radiation. The firing lamp is made of rigid polycarbonate, the inner surface of which is provided with refractive stripes. The explosion to order of the lamp assembly is that the firing lamps on the emitting framework are lit up from lower to upper as far as reaching the center of the supporting ball and then radiation lamps are lit up outward from the center of supporting ball and after that the flashing lamps flash. Explosions operate in layers during the whole process and flashing lamps flash finally, thus an explosion Scycle is completed.

The present invention basically replaces conventional fireworks of powder type by specially manufactured fireworks lamp assembly which simulates the explosion process of conventional fireworks using electronicscontrol system. The present invention is easy to use and operate safely, Swhich can replace conventional fireworks very effectively and can be used in the cities and countryside for decoration in cases of festivals and important celebration activities.

Figure 1 is a schematic view of the structure according to the first embodiment of the present invention; SFigure 2 is a schematic view of the structure of a radiating lever according to the first embodiment of the present invention; Figure 3 is a schematic view of the structure according to the second embodiment of the present invention; Figure 4 is a schematic view of the structure of a radiating lever according to the second embodiment of the present invention; Figure 5 is a schematic view of the integrated chip according to the present invention; I Figure 6 is a electrical circuit diagram according to the first embodiment of the present invention; 31 Figure 7 is a electrical circuit diagram according to the second embodiment of the present invention.

The present invention will be described in more detail by referring to the embodiments.

First embodiment The radiating levers 3 are bent to form the shape of the tracks of firework explosion along its length and inserted into respective bores of the supporting ball 2. Then bulbs or tubular lamps having different colors are attached to respective radiating levers and divided into two kinds of lamps.

One is explosion lamp 5 and the other is flashing lamp 6 and they are f arranged in regular order. These bulbs or tubular lamps can be arranged to have various special configurations and be provided on different spherical layers. These spheres take the supporting ball as their center. The number of the layers of the explosion lamps 5 should be no less than three. The more the layers are and the shorter the distance between the layers is, the better the continuity of explosion of these lamps is and the more effective the simulation of the conventional fireworks is. The lamps in the same sphere (layer) are connected together, so that lamps in different layers are lit up successively outward from the ball center. The flashing lamps 6 are on the outer ends of the radiation levers 3 and are consisted of a plurality of small bulbs and stroboscopic bulbs. These flashing lamps 6 are divided into two or more lines and controlled by controller 7 such that they are lit up alternately or simultaneously. The firing lamps 4 are arranged in sections on the Ic emitting framework I and controlled by the controller such that they are lit up successively from lower to upper part of the emitting framework and produce the effect of moving upward. The lifting of the emitting framework 1 with lamps completes the assembly. The electronic-controller 7 is connected respectively with the firing lamps 4, explosion lamps 5 and flashing lamps 6.

1; Firstly the firing lamps 4 are lit up in the order from lower to upper, then the explosion lamps 5 are lit up in order of AB-C-A+B-A+B+C-B+C'C meanwhile the firing lamps 4 are put off, and then the flashing lamps 6 are lit up meanwhile the explosion lamps 5 are put off, finally the firing lamps 4 are lit up again after the flashing lamps 6 are put off and then the above cycle is )C repeated again.

Second embodiment In present embodiment, the radiating levers 3 are straight levers on which are arranged the explosion lamps 5 which are lit up in the order of A+A' C+C' The firing lamps 4, explosion lamps 5 and flashing lamps 6 can be consisted of neon lamps, bulb, bulb series, molded tubular lamps and stroboscopic bulbs. The controller is based on specially designed integrated circuit (IC) LM7295BP which is a plastics-capsulated dual in-line package and is made by using bi-polar and COMS compatible technology and is 3coperated at 3-18V and can output current large enough to activate solid relays directly. The figure 6 shows the arrangement of LM7259BP's pins, in which pins 24-27 are programming pins which can lock the output program by connecting with high and low electrical potentials. LM7259BP has 13 output pins which are divided into 3 groups and by reference to the first embodiment it is characterized as follows.

The first group includes 1-6 output pins for controlling firing lamps 4.

When electrified they can output high level in the order of 1--2-3-4-5-6 to activate solid relays directly, so that the firing lamps 4 are lit up from lower to upper successfully. The firing speed of the firing lamps can be changed by L changing the value of RPland C1.

The second group includes 7-10 output pins for controlling the explosion lamps 5. When the firing lamps 4 are lit up, high levels are output in the order of 7- 8-9 -10- 7-7+8- 7+8+9-7+8+9+10- 8+9+10- 9+10- 10 to light up explosion lamps 5A, 5B, 5C and 5D respectively. The LtO lighting speed of the explosion lamps can be changed by adjusting the value of RP2.

The third group includes 11-13 output pins for controlling flashing lamps 6. After the second group puts off, high levels are output in the order of 11- 12-13- 11+12-1 1+13- 12+13- 11+12+13 to light up flashing lamps 6 in high speed. The flashing frequency can be changed by adjusting the value of RP3.

o After the third group completes one cycle or several cycles, the IC s resets and the above process is repeated in the order of the first group -the second group -the third group.

In the second embodiment, the controller is based on integrated circuit (IC)-LH9855N which is a plastics -capsulated dual in-line package which is made by using bi-polar and COMS compatible technology. The figure 7 o shows the arrangement of LH9855N's pins, in which pin 1 is connected with the positive of the power source, pins 2, 3, 4 used for oscillation common ends of explosion lamps are connected with oscillation resistor and oscillation capacitor, pins 5-12 are used for pulse output ends of firing lamps 1-8, pins 14-19 are used for pulse output ends of firing lamps 1-6, pin 13 is connected with the negative of the power source, pins 20, 21 and 21 are common oscillation ends used for firing lamps, pins 23 and 24 are redundant pins.

pinsAfter electrified, pins 14-19 output high level pulses successively to activate solid relays and light up the firing lamps 4, and after the firing lamps put off, pins 5-12 output high level in the order of 5+6 -7+8 -9+10 11+12 5+6 5+7+8 5+7+9+10 5+7+9+11+12 7+9+11+12 9+11+12 -11+12 -12 to control the lighting up of the explosion lamps showing in figure 4, in which pins 5-12 are respectively corresponding to A- D' showing in Figure 4 as follows: 5-A 6-A' 7-B 9-C 10-C, 11-D 12-D'.

The control circuit can be configured according to the different forms of explosion of the lamps using the prior arts in order to make the simulation more effective.

a a

Claims (11)

1.A electronic-controlled fireworks lamp assembly, including a emitting framework, a supporting ball, radiating levers and a controller, characterized in that the emitting framework is connected to the radiating levers via the supporting ball; the radiating levers are bent into such a shape as to produce the effect of fireworks exploding; explosion lamps and flashing lamps attach to the radiating levers; the controller is connected with firing lamps, the explosion lamps and the flashing lamps.

2.The electronic-controlled fireworks lamp assembly in accordance with claim 1, characterized in that said radiating levers are straight lever to which the explosion lamps and flashing lamps attach.

3.The electronic-controlled fireworks lamp assembly in accordance with claim 1, characterized in that said emitting framework is made of metal tubes or metal supports on which the firing lamps attach.

4.The electronic-controlled fireworks lamp assembly in accordance with claim 1, characterized in that said supporting ball is a metal support of spherical shape having a plurality of bores therein. electronic-controlled fireworks lamp assembly in accordance with claim 1, characterized in that said explosion lamps are arranged on at least three spherical layers from ball center outward radially.

6.The electronic-controlled fireworks lamp assembly in accordance with claim 1, characterized in that said radiating levers are connected to the supporting ball by inserting into the bores of the supporting ball directly.

7.A method of manufacturing the electronic-controlled fireworks lamp assembly, characterized in that firing lamps is composed of colored tubes which is made of rigid plastics with inigh str:ngth; the interior of tubes is provided with light-emitting bodies and the extension lines are led out from it; the ends of the tubes are sealed tightly with adhesive; these tubes can constitute emitting framework itself, or can be used in combination with radiating levers; emitting framework can be designed into the shape of block, lever or artistic model; it can flash upward or do not flash; and the emitting framework can be colored lamp or colored cylinder in which electrical wires and controller are provided; a supporting ball is a explosion center in which bores are provided for radiating levers passing through; the supporting ball can be provided at a plurality of locations on the emitting framework or radiating levers, producing effect of explosion at a plurality of locations; a controller can control these explosion locations in the emitting framework and make them explode and radiate successively.

8.The method of manufacturing the electronic-controlled fireworks lamp assembly in accordance with claim 7, characterized in that the shape of the radiating levers can be curved, straight, overlapping or different length which can be combined into many geometry, such as spherical shape or fan shape and the cross-section of the levers can be circular, flat or special shaped.

9.The method of manufacturing the electronic-controlled fireworks lamp assembly in accordance with claim 7, characterized in that explosion and flashing points take the supporting ball as their center and explode outward -6- successively; the supporting ball can be arranged on upper, middle and lower part of the lamp assembly as well as on the radiating levers to be used for the second and third radiation.

10. The method of manufacturing the electronic-controlled fireworks lamp assembly in accordance with claim 7, characterized in that the firing lamp is made of rigid polycarbonate, the inner surface of which is provided with refractive stripes.

11. The method of manufacturing the electronic-controlled fireworks lamp assembly in accordance with claim 7, characterized in that the explosion order of the fireworks lamp assembly is that the firing lamps on the emitting framework are lit up upward from lower to the center of the ball successively; then the radiation lamps are lit up from the ball center outward to reach the ends, and then the flashing lamps flash; this 0whole cycle proceeds in layers and the flashing lamps flash finally, thus an explosion S 15 cycle is completed.

12. An electronic-controlled fireworks lamp assembly, substantially as described herein in relation to any one embodiment with reference to Figs. 1 7. 20 13. A method of manufacturing an electronic-controlled fireworks lamp assembly, said method being substantially as described herein in relation to any one @6 embodiment with reference to Figs. 1 7. DATED this Twenty-sixth Day of May, 2000 Limin LIU Patent Attorneys for the Applicant SPRUSON FERGUSON [R:\LIB F]28300.doc:avc