(Carbon dioxide gas blasting equipment) @Wireless signal control blasting system, including: a remote controller and multiple (carbon dioxide gas blasting equipment), the remote controller communicates with the multiple (carbon dioxide gas blasting equipment) through wireless signals, and remotely controls The device sends energy and control commands to the (carbon dioxide gas blasting equipment) through radio frequency signals to control the start of the carbon dioxide gas blasting equipment. The blasting system also includes one or more programmers for setting the start-up parameters and indication information of the carbon dioxide gas blasting equipment; the blasting system provided by the present invention can improve the safety and reliability in blasting operations; and Compared with the traditional blasting system based on physical connection, the organization of carbon dioxide blasting network has greater advantages; it makes the start-up project more convenient and quicker; reduces the possibility of misoperation; the programmer and starter can be recycled during operation. Claims 1. A blasting system, characterized by comprising: a remote controller and a plurality of carbon dioxide gas blasting equipment, the remote controller communicates with the plurality of carbon dioxide gas blasting equipment through wireless signals, The remote controller sends energy and control commands to the plurality of carbon dioxide gas blasting equipment through wireless radio frequency signals to control the activation of the carbon dioxide gas blasting equipment. 2. The blasting system according to claim 1, wherein the radio frequency signal is composed of a carrier signal and a modulated data signal, The carbon dioxide gas blasting equipment includes a radio frequency signal rectification module, a charging module, a radio frequency signal demodulation module, a decoding module, a ring isolator, an encoding module, a wireless data signal modulation module, a logic circuit module, a charge storage device, and a bridge wire control Switch and a bridge wire; The rectification module is used to rectify the received radio frequency signal and send it to the charging module; The charging module stores the obtained energy in a charge storage device; The wireless radio frequency signal demodulation module is used to demodulate the received radio frequency signal to obtain a digital signal; The decoding module sends the control information with delay information obtained after demodulating the digital signal to the logic circuit module; The encoding module is used to encode the information to be sent, and send the encoded information to the wireless data signal modulation module, and the wireless data signal modulation module sends it to the remote controller wirelessly after modulation . 3. The blasting system according to claim 2, wherein the charge storage device is connected to other devices in the carbon dioxide gas blasting device through physical conduction, and provides electrical energy to the connected device, and the charge storage device comprises A capacitor. 4. The blasting system according to claim 2, wherein the frequency of the radio frequency signal is between 200MHz-100GHz. 5. The blasting system according to claim 4, wherein the frequency of the radio frequency signal is 433MHz or 2.45GHz. The blasting system according to any one of claims 1 to 5, characterized in that: the wireless radio frequency signal rectification module, charging module, radio frequency signal demodulation module, radio frequency signal decoding module, ring isolator, The wireless data signal encoding module, the wireless data signal modulation module, the logic circuit module and the bridge wire control switch are integrated on one chip. The blasting system according to claim 6, wherein in the chip wireless signal device, the wireless signal device is a wireless signal transceiver device of a single carbon dioxide gas blasting device, or two or more carbon dioxide gas blasting devices Group of wireless signals, which are located above the ground. 8. The blasting system according to claim 6, wherein the logic circuit of the carbon dioxide gas blasting equipment obtains the control signal by modulating and demodulating the radio frequency signal, and then sends the command to the bridge wire control switch and affects its action, thereby The bridge wire that controls the charge storage device to transfer electrical energy to the carbon dioxide gas blasting device. 9. The blasting system according to claim 6, characterized in that: In the blasting system, there are more than two carbon dioxide gas blasting devices to obtain the same radio frequency signal, and the two or more carbon dioxide gas blasting devices obtain the same logic circuit control signal through the same demodulation and decoding method. 10. The blasting system according to claim 6, characterized in that it further comprises one or more programmers, The programmer for carbon dioxide gas blasting equipment is used to set the startup parameters and instruction information of the carbon dioxide gas blasting equipment; it communicates with a remote controller and two or more carbon dioxide gas blasting equipment through a wireless connection and is used to receive the carbon dioxide The wireless data signal of the gas blasting equipment and the wireless radio frequency signal of the carbon dioxide gas blasting equipment are used to read and write and send to the logic circuit control signal of the carbon dioxide gas blasting equipment. Background technique Electronic blasting systems are widely used in mining, construction and various engineering sites. Under normal circumstances, blasting teams will adopt different connection methods according to different environments, but they often encounter various harsh environments that make them embarrassing, such as high-temperature and humid underground mines and blasting sites under thunder vacuum conditions. All have put forward a huge test for the use of traditional physical connections, while also reducing the safety and reliability of traditional connections. At the same time, certain material and financial resources are required to conduct environmental surveys and select physical connection materials, which also increases the basic cost of the entire blasting operation. Therefore, the use of traditional physical connections will become a basic burden in the blasting industry today with the development of wireless technology. my country's wireless carrier radio frequency technology is widely used in various industries in my country, such as transportation industry, logistics industry, food industry and so on. The wireless carrier radio frequency can transmit energy information and data information to the receiver in the form of energy waves, thus achieving the operation and control of the target module. The wireless carrier radio frequency has the characteristics of stability, instantaneity and high efficiency, which can enable the target module to complete the command action in a short time. The wireless carrier radio frequency technology has great potential. It can bypass the environmental factors posed to the blasting system through the traditional physical connection. The use of wireless carrier radio frequency technology can avoid the use of physical connections between carbon dioxide blasting, thereby reducing the risk of improper physical connections. The resulting failures and potential safety hazards further improve the safety and reliability of blasting operations. Shijie 13273308303 WeChat synchronization 08*16 2835 Led Neon Flex,Neon Flexible,Neon Flex Light,Neon Flex Led Strip NINGBO SENTU ART AND CRAFT CO.,LTD. , https://www.lightworld-sentu.com
