CN210426275U - Firework ignition system and firework setting-off device - Google Patents
Firework ignition system and firework setting-off device Download PDFInfo
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- CN210426275U CN210426275U CN201920622829.3U CN201920622829U CN210426275U CN 210426275 U CN210426275 U CN 210426275U CN 201920622829 U CN201920622829 U CN 201920622829U CN 210426275 U CN210426275 U CN 210426275U
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Abstract
The utility model relates to a fireworks ignition system and fireworks setting off device, including a plurality of fireworks ignition terminal modules of ignition signal output module, communication relay module and a plurality of fireworks ignition terminal modules; the communication relay module and the firework ignition terminal modules are wirelessly networked, the ignition signal output module generates firework ignition signals and sends the firework ignition signals to the communication relay module, the communication relay module receives the firework ignition signals and forwards the firework ignition signals to the firework ignition terminal modules through a wireless network, and the firework ignition terminal modules ignite external fireworks according to the firework ignition signals. Through above-mentioned fireworks ignition system, can set off all kinds of fireworks at safe distance remote control through wireless mode remote control ignition, can use repeatedly, realize and use fairly simply to can be applicable to the field of setting off of different orders of magnitude through the quantity of adjustment fireworks ignition terminal module.
Description
Technical Field
The utility model relates to a fireworks field of igniteing especially relates to fireworks ignition system and fireworks setting off device.
Background
Fireworks and crackers are popular among people including all places. With the development of fireworks technology, the improvement of science and technology and the improvement of living standard, the requirements of people on the safety and entertainment of fireworks are higher and higher.
The firework setting off comprises two markets, namely large-scale and professional-grade firework setting off and small (micro) and consumption-grade setting off of common users. In large-scale and professional firework setting off places, safety and entertainment are better solved, and in the setting off environment, a firework setting off system is composed of a remote setting off control device, an automatic ignition device and fireworks. The firing control device and the automatic ignition device adopt a wired connection or wireless remote control communication mode to realize the transmission of control commands, and can program the firing effect through special programming equipment.
For the professional-level setting-off control system, different firework suppliers have respective specific steps and respective special control systems, and the professional-level setting-off control system has no universality and cannot be popularized and applied to the small (micro) and consumption-level setting-off fields of common users.
SUMMERY OF THE UTILITY MODEL
Therefore, it is necessary to provide a firework ignition system and a firework setting-off device for solving the problem that the conventional professional setting-off control system has no universality.
A firework ignition system comprises an ignition signal output module, a plurality of firework ignition terminal modules, a communication relay module and a plurality of firework ignition terminal modules;
the communication relay module with a plurality of fireworks ignition terminal module carry out wireless network deployment, ignition signal output module generates fireworks ignition signal and sends fireworks ignition signal extremely communication relay module, communication relay module receives fireworks ignition signal will through wireless network fireworks ignition signal send to fireworks ignition terminal module, fireworks ignition terminal module basis fireworks ignition signal ignites external fireworks, communication relay module includes zigBee wireless communication module or loRa wireless communication module.
In one embodiment, the firework ignition terminal module comprises a terminal communication unit, a terminal storage unit, an ignition control unit and an arc ignition unit;
the terminal communication unit with the ignition control unit and the communication relay module is connected, the ignition control unit with terminal memory cell and arc ignition unit connect, terminal communication unit receives the fireworks firing signal that carries identification information, the identification information that the ignition control unit prestores in the contrast terminal memory cell and the identification information that fireworks firing signal carried, work as prestore identification information with when the identification information that fireworks firing signal carried is unanimous, output arc firing signal to arc ignition unit.
In one embodiment, the terminal storage unit comprises a read-only memory.
In one embodiment, the arc ignition unit includes a single tube self-excited circuit, a macbeth circuit, and a tesla circuit.
In one embodiment, the firework ignition terminal module further comprises a terminal power supply unit, the terminal power supply unit is connected with the ignition control unit, and the terminal power supply unit comprises a laminated battery.
In one embodiment, the communication relay module comprises a relay control unit, a relay storage unit, a relay power supply unit and a communication relay networking unit, the relay control unit is connected with the storage unit, the power supply unit and the communication relay networking unit, and the communication relay networking unit is connected with the firework ignition terminal modules and the ignition signal output module.
In one embodiment, the ignition signal output module includes a number reading unit, a time setting unit, and an output communication unit, the number reading unit is connected with the time setting unit, the time setting unit is connected with the output communication unit, and the output communication unit is connected with the communication relay module.
In one embodiment, the ignition signal output module comprises a smart mobile device.
In one embodiment, the output communication unit comprises a Bluetooth communication unit or a Wi-Fi communication unit.
The firework setting-off device is characterized by comprising the firework ignition system and a firework, wherein the firework is connected with the firework ignition terminal module.
Above-mentioned fireworks ignition system generates and output fireworks ignition signal through ignition signal output module, forwards a plurality of fireworks ignition terminal modules with zigBee or LoRa's wireless communication's mode with fireworks ignition signal through communication relay module, and fireworks ignition operation is accomplished according to receiving fireworks ignition signal to fireworks ignition terminal module. Through above-mentioned fireworks ignition system, can ignite through wireless mode remote control, support to set off all kinds of fireworks at safe distance remote control, can use repeatedly, realize and use fairly simple to can be applicable to the field of setting off of different orders of magnitude through the quantity of adjustment fireworks ignition terminal module.
Drawings
FIG. 1 is a block diagram of a firework ignition system in one embodiment;
FIG. 2 is a block diagram of a firework ignition system in another embodiment;
FIG. 3 is a block diagram of a firework ignition system in yet another embodiment;
FIG. 4 is a block diagram of a firework ignition system in yet another embodiment;
fig. 5 is a block diagram of the firework setting-off device in one embodiment.
Detailed Description
In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.
In one embodiment, as shown in fig. 1, there is provided a firework ignition system 200 comprising an ignition signal output module 250, a communication relay module 230, and a plurality of firework ignition terminal modules 210;
the communication relay module 230 wirelessly networks with the plurality of firework ignition terminal modules 210, the ignition signal output module 250 generates firework ignition signals and sends the firework ignition signals to the communication relay module 230, the communication relay module 230 receives the firework ignition signals and forwards the firework ignition signals to the firework ignition terminal modules 210 through a wireless network, and the firework ignition terminal modules 210 ignite external fireworks according to the firework ignition signals. The communication relay module 230 includes a ZigBee wireless communication module or an LoRa wireless communication module.
The firework ignition terminal module 210 can be directly connected with the lead of an external firework, the firework ignition terminal module 210 can acquire a firework ignition signal sent by the communication relay module 230, and the firework lead can be ignited in an electric arc ignition or electronic ignition mode after the firework ignition signal is acquired and verified, so that the firework is released. The communication relay module 230 is used for wireless networking of the firework ignition terminal modules 210 in a ZigBee or LoRa mode, the communication relay module 230 is equivalent to a high-level parent node in the network, and each firework ignition terminal module 210 is equivalent to a child node. The communication relay module 230 may forward the received firework ignition signals to each firework ignition terminal module 210 via a wireless network established by a network, and the ignition signal output module 250 is configured to generate firework ignition signals for controlling whether and when each firework ignition terminal module is ignited, and to control the setting-off sequence and setting-off time of the fireworks through the firework ignition signals, so as to meet the expected setting-off effect.
Above-mentioned fireworks ignition system generates and outputs fireworks ignition signal through ignition signal output module 250, forwards fireworks ignition signal to a plurality of fireworks ignition terminal module 210 with zigBee or LoRa's wireless communication's mode through communication relay module 230, and fireworks ignition terminal module 210 accomplishes fireworks ignition operation according to receiving fireworks ignition signal. Through above-mentioned fireworks ignition system, can set off all kinds of fireworks at safe distance remote control through wireless mode remote control ignition, can use repeatedly, realize and use fairly simply to can be applicable to the field of setting off of different orders of magnitude through the quantity of adjustment fireworks ignition terminal module.
As shown in fig. 2, in one embodiment, the firework ignition terminal module 210 includes a terminal communication unit 211, a terminal storage unit 213, an ignition control unit 215, and an arc ignition unit 217;
the terminal communication unit 211 is connected with the ignition control unit 215 and the communication relay module 230, the ignition control unit 215 is connected with the terminal storage unit 213 and the arc ignition unit 217, the terminal communication unit 211 receives a firework ignition signal carrying identification information, the ignition control unit compares the identification information prestored in the terminal storage unit with the identification information carried by the firework ignition signal, and when the prestored identification information is consistent with the identification information carried by the firework ignition signal, the arc ignition signal is output to the arc ignition unit
The terminal communication unit 211 and the communication relay module 230 are networked, and serve as a child node in the network, and are mainly used for receiving the firework ignition signal sent by the parent node communication relay module 230. The terminal storage unit 213 stores identification information of the corresponding firework ignition terminal module 210 and network configuration information corresponding to the terminal. The terminal storage unit may be a FLASH chip. After the terminal communication unit 211 receives the firework ignition signal, the ignition control unit 215 compares the identification information carried in the firework ignition signal with the identification information carried in the terminal storage unit 213 to determine whether the firework ignition signal carries the identification information of the current terminal, and when the firework ignition signal carries the identification information of the current firework ignition terminal module 210, controls the arc ignition unit to generate an electric spark, ignite a lead corresponding to an external firework, and release the firework. The ignition control unit 215 may be a PIC single-chip microcomputer, and controls the arc ignition unit to ignite in response to an instruction of the communication relay module 230. In one embodiment, the identification information is specifically a device number of the terminal device. In one embodiment, the arc ignition unit 217 includes any one of a single tube self-excited circuit, a Marx generator circuit, and a Tesla coil circuit, through which an arc is generated for ignition. In another embodiment, the arc ignition unit 217 may be a heating wire ignition unit, or may include both ignition units, so that the user can select the ignition mode. In one embodiment, the firework ignition terminal module 210 further includes a terminal power supply unit 219, the terminal power supply unit 219 is connected with the ignition control unit 215, and the terminal power supply unit 219 includes a laminated battery. The laminated battery is also called as a 9V battery, and is named because the internal structure of the laminated battery is a stack of 6 miniature sheet batteries. Also known as PPP3 battery, nominal voltage 9V (the actual delivery voltage is slightly higher, and gradually decreases with use), and its dimensions are 26.5mm in width, 17.5mm in thickness, and 48.5mm in height. Depending on the electrolyte, a lithium battery (lithium8.4V), a carbon 6F22, an Alkaline 6LR61 (Alkaline) disposable 9V battery, and a nickel-hydrogen (Ni-MH) nickel-cadmium (Ni-Cd) secondary 9V battery are mainly used. The laminate battery can provide a higher operating voltage for the firework ignition terminal module 210 in a compact structure.
The terminal communication unit 211 includes a ZigBee network terminal, and the communication relay module 230 includes a ZigBee coordinator. The firework ignition system is communicated through a ZigBee wireless network. The communication relay module comprises a ZigBee coordinator, the ZigBee coordinator is arranged in a ZigBee network, and the ZigBee coordinator has one or more coordinators and has the functions of network building and network maintenance in the network. Is the central hub of the whole network and is the parent node with the highest grade. The terminal communication unit 211 is a ZigBee terminal, and the ZigBee terminal has the simplest function in a ZigBee network, and can only join the network and is the endmost child node device. Only with its parent. The ZigBee terminals can be simultaneously arranged in a plurality of modes, the energy consumption is low, and the energy consumption of the whole firework ignition system can be effectively reduced.
As shown in fig. 3, in one embodiment, the communication relay module 230 includes a relay control unit 232, a relay storage unit 234 and a communication relay networking unit 236, the relay control unit 232 is connected with the storage unit 234 and the communication relay networking unit 236, and the communication relay networking unit 232 is connected with the plurality of firework ignition terminal modules 210 and the ignition signal output module 250. Wherein the relay control unit 232 is configured to control the modules in the communication relay module 230 to work in coordination. The relay control unit 215 may be a PIC single chip microcomputer. The relay storage unit 234 is used for storing information such as the device number of the communication relay module and the corresponding network configuration. The relay storage unit 234 may specifically be a Flash chip. In one embodiment, the communication relay module 230 further includes a relay power supply unit 238, the relay power supply unit 238 is connected to the relay control unit 232, the relay power supply unit 238 is configured to supply power to the communication relay module 230, and the relay power supply unit 238 includes a laminate battery. The communication relay networking unit 236 is used for building a network and transmitting firework ignition signals. In one embodiment, the communication relay networking unit is a ZigBee coordinator.
As shown in fig. 4, in one embodiment, the ignition signal output module 250 includes a number reading unit 252, a time setting unit 254 for setting the firework ignition signal transmission time, and an output communication unit 256, wherein the number reading unit 252 is connected with the time setting unit 254, the time setting unit 254 is connected with the output communication unit 256, and the output 256 unit is connected with the communication relay module 230. The number reading unit 252 is configured to read a number of the firework ignition terminal module 210 specified by the user according to an instruction input by the user, the time setting unit 254 is configured to set a sending time of a firework ignition signal corresponding to each firework ignition terminal module 210 according to the instruction input by the user, and the output communication unit 256 is configured to send the firework ignition signal to the communication relay module 230. In one embodiment, the ignition signal output module comprises a smart mobile device. Specifically, the communication device may be a smart phone running an IOS system or an Android system, and in one embodiment, the output communication unit includes a bluetooth communication unit or a Wi-Fi communication unit. The ignition signal output module 250 sends a firework ignition signal to the communication relay module 230 in a bluetooth or Wi-Fi manner.
In one embodiment, the firework ignition system comprises an ignition signal output module, a communication relay module and a plurality of firework ignition terminal modules; the communication relay module and the firework ignition terminal modules are wirelessly networked in a ZigBee mode, the ignition signal output module generates firework ignition signals and sends the firework ignition signals to the communication relay module, the communication relay module receives the firework ignition signals and forwards the firework ignition signals to the firework ignition terminal modules through a ZigBee wireless network, and the firework ignition terminal modules ignite external fireworks according to the firework ignition signals. The firework ignition terminal module comprises a terminal communication unit, a terminal storage unit, an ignition control unit, an arc ignition unit and a terminal power supply unit; the terminal communication unit is connected with the ignition control unit and the communication relay module, the ignition control unit is connected with the terminal storage unit, the arc ignition unit and the terminal power supply unit, the terminal communication unit receives a firework ignition signal carrying identification information, the ignition control unit compares the identification information stored in the terminal storage unit with the identification information of the firework ignition signal, and the arc ignition signal is output to the arc ignition unit. The communication relay module comprises a relay control unit, a relay storage unit, a relay power supply unit and a communication relay networking unit. The ignition signal output module comprises a number reading unit, a time setting unit for setting the sending time of the firework ignition signal and an output communication unit. The firework igniting terminal module is connected with a lead of an external firework. The terminal storage unit is a read-only memory. The communication relay networking unit is a ZigBee coordinator. The arc ignition unit includes a single tube self-excitation circuit. The terminal power supply unit includes a laminate battery. The relay control unit is connected with the storage unit, the power supply unit and the communication relay networking unit, and the communication relay networking unit is connected with the multiple firework ignition terminal modules and the ignition signal output module. The number reading unit is connected with the time setting unit, the time setting unit is connected with the output communication unit, and the output communication unit is connected with the communication relay module. The ignition signal output module is an Android smart phone.
In addition, as shown in fig. 5, the application further provides a firework setting-off device, which comprises the firework ignition system 200 and the firework 400, wherein the firework 400 is connected with the firework ignition terminal module 210. The specific firework ignition terminal module 210 is connected with a lead of a firework and is used for igniting the firework.
The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (10)
1. A firework ignition system is characterized by comprising an ignition signal output module, a communication relay module and a plurality of firework ignition terminal modules;
the communication relay module with a plurality of fireworks ignition terminal module carry out wireless network deployment, ignition signal output module generates fireworks ignition signal and sends fireworks ignition signal extremely communication relay module, communication relay module receives fireworks ignition signal will through wireless network fireworks ignition signal send to fireworks ignition terminal module, fireworks ignition terminal module basis fireworks ignition signal ignites external fireworks, communication relay module includes zigBee wireless communication module or loRa wireless communication module.
2. A firework ignition system as claimed in claim 1, wherein the firework ignition terminal module comprises a terminal communication unit, a terminal storage unit, an ignition control unit and an arc ignition unit;
the terminal communication unit with the ignition control unit and the communication relay module is connected, the ignition control unit with terminal memory cell and arc ignition unit connect, terminal communication unit receives the fireworks firing signal that carries identification information, the identification information that the ignition control unit prestores in the contrast terminal memory cell and the identification information that fireworks firing signal carried, work as prestore identification information with when the identification information that fireworks firing signal carried is unanimous, output arc firing signal to arc ignition unit.
3. A firework ignition system as claimed in claim 2, wherein the terminal memory unit comprises a read only memory.
4. A firework ignition system as claimed in claim 2, wherein the arc ignition unit comprises a single tube self-excited circuit, a marx generator circuit, and a tesla coil circuit.
5. A firework ignition system as claimed in claim 2, wherein the firework ignition terminal module further comprises a terminal power supply unit, the terminal power supply unit is connected with the ignition control unit, and the terminal power supply unit comprises a packed battery.
6. A firework ignition system according to claim 1, wherein the communication relay module comprises a relay control unit, a relay storage unit and a communication relay networking unit, the relay control unit is connected with the storage unit and the communication relay networking unit, and the communication relay networking unit is connected with the plurality of firework ignition terminal modules and the ignition signal output module.
7. A firework ignition system as claimed in claim 1, wherein the ignition signal output module comprises a smart mobile device.
8. A firework ignition system according to claim 1, wherein the ignition signal output module comprises a number reading unit, a time setting unit and an output communication unit, the number reading unit is connected with the time setting unit, the time setting unit is connected with the output communication unit, and the output communication unit is connected with the communication relay module.
9. A firework ignition system as claimed in claim 8, wherein the output communication unit comprises a bluetooth communication unit or a Wi-Fi communication unit.
10. A firework setting off device, characterized in that, comprising the firework ignition system and fireworks as claimed in any one of claims 1-9, the fireworks are connected with the firework ignition terminal module in the firework ignition system.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920622829.3U CN210426275U (en) | 2019-04-30 | 2019-04-30 | Firework ignition system and firework setting-off device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920622829.3U CN210426275U (en) | 2019-04-30 | 2019-04-30 | Firework ignition system and firework setting-off device |
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| Publication Number | Publication Date |
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| CN210426275U true CN210426275U (en) | 2020-04-28 |
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| CN201920622829.3U Active CN210426275U (en) | 2019-04-30 | 2019-04-30 | Firework ignition system and firework setting-off device |
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