A detonation wire has a firing module connector at one end and a firework connection assembly at another end. The firework connection assembly has a connector housing having a plurality of sections at least partially surrounding and defining an ignition chamber. The firework connection assembly also has one or more firework igniters positioned at least partially within the ignition chamber. A firework igniter is operable to activate an ignition element of a respective firework placed into engagement therewith. Other examples also are described.

A detonation wire has a firing module connector at one end and a firework connection assembly at another end. The firework connection assembly has a connector housing having a plurality of sections at least partially surrounding and defining an ignition chamber. The firework connection assembly also has one or more firework igniters positioned at least partially within the ignition chamber. A firework igniter is operable to activate an ignition element of a respective firework placed into engagement therewith. Other examples also are described.

A multi-shot cake or aerial firework assembly, including a plurality of mortar tubes defining a firework assembly, wherein each respective mortar tube has a top end, an oppositely disposed bottom end, and a mortar tube length, and a plurality of shells, each respective shell disposed within a respective mortar tube. A first short tube having a first short tube length less than the mortar tube length is connected to the firework assembly, wherein the first short tube has a first short top end and a first short tube bottom end. A second short tube having a second short tube length less than the mortar tube length is connected to the firework assembly, wherein the second short tube has a second short tube top end and a second short tube bottom end. A fountain firework disposed within the second short tube for discharge through the second short tube top end. An elongated fuse having a proximal end and a distal end extends from the first short tube through each respective mortar tube and into the second short tube, wherein a sum of the first short tube length and the second short tube length together is less than the mortar tube length, and wherein the bottom end of the first short tube is elevated higher than the top end of the second short tube.

A fireworks kit can have a set of fireworks having multiple fireworks of different types and a plurality of detonators in communication with the fireworks that are configured to launch or detonate a firework attached thereto. A remote controller or mobile device can be in communication with the detonators and operable to provide dynamic or user customizable control of detonation, launching, or ignition of the fireworks.

A fireworks kit can have a set of fireworks having multiple fireworks of different types and a plurality of detonators in communication with the fireworks that are configured to launch or detonate a firework attached thereto. A remote controller or mobile device can be in communication with the detonators and operable to provide dynamic or user customizable control of detonation, launching, or ignition of the fireworks.

A modular pyrotechnic launch unit includes a launch module, a first module, and a second module. The launch module includes a launch barrel. The first module is coupled in series to the launch module. The first module includes a first ignition state in which the first module ignites a pyrotechnic element that will then pass through the launch barrel. The first module also includes a first pass-through state in which the first module allows a pyrotechnic element ignited by another module to pass through the first module. The second module is coupled in series to the first module. The second module includes a second ignition state in which the second module ignites a pyrotechnic element that will then pass through the first module and through the launch barrel.

A modular pyrotechnic launch unit includes a launch module, a first module, and a second module. The launch module includes a launch barrel. The first module is coupled in series to the launch module. The first module includes a first ignition state in which the first module ignites a pyrotechnic element that will then pass through the launch barrel. The first module also includes a first pass-through state in which the first module allows a pyrotechnic element ignited by another module to pass through the first module. The second module is coupled in series to the first module. The second module includes a second ignition state in which the second module ignites a pyrotechnic element that will then pass through the first module and through the launch barrel.

Proposed are air apparatus and a method for integrated control of ignition of fireworks products and flight of unmanned aerial vehicles for a fireworks show, the apparatus including: an information input part configured to receive flight information of the multiple unmanned aerial vehicles and ignition information of the fireworks products provided at the respective multiple unmanned aerial vehicles; an unmanned aerial vehicle flight controller configured to generate flight control signals on the basis of tire received flight information of the unmanned aerial vehicles; a fireworks product ignition controller configured to generate ignition control signals on the basis of the received ignition information of the fireworks products; and a state information receiver configured to receive in real time flight state information of the unmanned aerial vehicles that have received the generated flight control signals, and ignition state information of the fireworks products that have received the generated ignition control signals.

Proposed are air apparatus and a method for integrated control of ignition of fireworks products and flight of unmanned aerial vehicles for a fireworks show, the apparatus including: an information input part configured to receive flight information of the multiple unmanned aerial vehicles and ignition information of the fireworks products provided at the respective multiple unmanned aerial vehicles; an unmanned aerial vehicle flight controller configured to generate flight control signals on the basis of tire received flight information of the unmanned aerial vehicles; a fireworks product ignition controller configured to generate ignition control signals on the basis of the received ignition information of the fireworks products; and a state information receiver configured to receive in real time flight state information of the unmanned aerial vehicles that have received the generated flight control signals, and ignition state information of the fireworks products that have received the generated ignition control signals.

A multi-shot cake or aerial firework assembly, including a plurality of mortar tubes defining a firework assembly, wherein each respective mortar tube has a top end, an oppositely disposed bottom end, and a mortar tube length, and a plurality of shells, each respective shell disposed within a respective mortar tube. A first short tube having a first short tube length less than the mortar tube length is connected to the firework assembly, wherein the first short tube has a first short top end and a first short tube bottom end. A second short tube having a second short tube length less than the mortar tube length is connected to the firework assembly, wherein the second short tube has a second short tube top end and a second short tube bottom end. A fountain firework disposed within the second short tube for discharge through the second short tube top end. An elongated fuse having a proximal end and a distal end extends from the first short tube through each respective mortar tube and into the second short tube, wherein a sum of the first short tube length and the second short tube length together is less than the mortar tube length, and wherein the bottom end of the first short tube is elevated higher than the top end of the second short tube.