CN219678600U - Low-power consumption standby infrared camera for ad hoc network communication - Google Patents
Low-power consumption standby infrared camera for ad hoc network communication Download PDFInfo
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- CN219678600U CN219678600U CN202320925089.7U CN202320925089U CN219678600U CN 219678600 U CN219678600 U CN 219678600U CN 202320925089 U CN202320925089 U CN 202320925089U CN 219678600 U CN219678600 U CN 219678600U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The utility model provides an infrared camera for low-power consumption standby ad hoc network communication, which comprises a camera shell, wherein a camera shooting assembly, a wireless ad hoc network communication module, a pyroelectric infrared sensing assembly, a common power supply, a memory card and a control chip are arranged in the camera shell, the camera shooting assembly, the wireless ad hoc network communication module, the pyroelectric infrared sensing assembly and the memory card are all in electric signal connection with the control chip, the common power supply is in electric connection with the control chip, the wireless ad hoc network communication module and the pyroelectric infrared sensing assembly, the wireless ad hoc network communication module is a WIFI module, the WIFI module is adjusted to be in an STA mode, and when the infrared camera is in standby, the wireless ad hoc network communication module can wait for other AP wireless ad hoc network modules matched with external keys within a certain range to wake up. The utility model relates to the technical field of infrared cameras.
Description
Technical Field
The utility model relates to the technical field of infrared cameras, in particular to an infrared camera for low-power consumption standby ad hoc network communication.
Background
In the original animal protection base, the infrared camera always plays an irreplaceable role, and can ensure the data record of various observation researches on the wild protection animals while not affecting the normal life of the wild protection animals, thereby being beneficial to species protection of the wild protection animals, but in the field, network signals are very weak or even absent, so that the recorded data cannot be transmitted back to a research institution or personal users through a network.
For example, the patent of the utility model with the bulletin number of CN210899368U discloses a 4G/5G infrared camera and a 4G/5G infrared camera system, wherein the camera comprises a camera unit, a control circuit comprising a main control chip, a pyroelectric infrared sensor assembly, a 4G/5G communication module, a power supply unit and a singlechip, and a built-in or external memory; the camera shooting unit, the 4G/5G communication module, the singlechip and the memory are connected with the main control chip in a conducting way, the pyroelectric infrared sensor assembly is connected with the singlechip in a conducting way, and the power supply unit is electrically connected with all the component parts.
Said utility model can be used for conveniently and immediately observing power supply quantity and shooting condition, and can be used for transferring the working state of main control chip, power supply state and shot picture to remote server by means of 4G/5G communication module so as to make research institution or personal user conveniently look over, but in the field of no signal, said infrared camera is not useful in the aspect of transferring data.
In addition, in the conventional wireless communication devices, there is a large continuous power consumption process, and the power is generally 3-10 watts, and they generally need to be configured with a relatively high-power solar panel and a matched storage battery, so that the purchase, installation and subsequent maintenance are very inconvenient.
Disclosure of Invention
Aiming at the defects of the prior art, the utility model provides an infrared camera for low-power consumption standby ad hoc network communication, which aims to solve the problems that data are transmitted to researchers in a state without 4G/5G network signals, the power consumption is fast, and the long-time standby cannot be realized.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides an infrared camera of low-power consumption standby's ad hoc network communication, includes the camera shell, be provided with camera module, wireless ad hoc network communication module, pyroelectric infrared sensing subassembly, ordinary power, memory card and control chip in the camera shell, camera module wireless ad hoc network communication module pyroelectric infrared sensing subassembly with the memory card all with control chip electrical signal connection, ordinary power with control chip wireless ad hoc network communication module with the pyroelectric infrared sensing subassembly electricity is connected, wireless ad hoc network communication module is the WIFI module, just the adjustment of WIFI module is the STA mode, during the infrared camera standby, wireless ad hoc network communication module can wait the other AP wireless ad hoc network module of the key assorted of certain in-range outside to wake up.
Based on the above, the infrared camera for the self-networking communication with low power consumption and standby has the beneficial effects that: the problem of infrared camera data transmission to researchers and the problem of fast power consumption and incapability of long-time standby are solved under the state of no 4G/5G network signal, and the method is mainly characterized in that: the wireless ad hoc network communication module is in an STA mode, is a 700M or 900M frequency band low-power consumption high-sensitivity special WIFI module, can wait for the external ad hoc network module in an AP mode matched with a secret key to wake up the wireless ad hoc network communication module and perform signal connection when the wireless ad hoc network communication module is in a standby state, and can upload a series of data about the residual power supply, the working state of a control chip and the shot picture, and the data can be transferred and downloaded to a user's hand through external equipment; in the utility model, because the wireless ad hoc network in the camera is standby with ultra-low power consumption, the power supply only needs a simple and cheap common power supply; the beneficial effect of the subassembly is made a video recording for shooting surrounding environment animal, and the beneficial effect of pyroelectric infrared sensing subassembly is for sensing whether there is the animal to control the subassembly work of making a video recording, so make a video recording the subassembly need not to open always, be in standby state at ordinary times can save more electric quantity, the beneficial effect of memory card is the photo that the memory card is shot, and control chip's beneficial effect is the course of working according to established procedure control infrared camera.
Further, the standby current of the wireless ad hoc network communication module is 0.5-1 milliamp.
Based on the above, the wireless ad hoc network communication module has the ultra-low power consumption standby characteristic, and the standby current is less than 1 milliamp, so that the infrared camera can have a long-time endurance function.
Further, the communication distance of the wireless ad hoc network communication module is 0-1.5 km, and the communication speed is more than 700 kbytes per second.
Based on the above, the maximum communication distance range of the wireless ad hoc network communication module can reach 1.5 km, and the minimum communication speed is 700 kbytes/second, so that the utility model has the characteristics of wide signal coverage range and fast data uploading.
Further, the pyroelectric infrared sensing assembly is provided with a pyroelectric infrared sensor and a singlechip, a signal input end of the singlechip is connected with a signal output end of the pyroelectric infrared sensor, and a signal output end of the singlechip is connected with a signal input end of the control chip.
Based on the above, when the pyroelectric infrared sensor receives the heat signal sent by the animal, the heat signal is converted into a digital signal by the singlechip and then is transferred to the control chip for processing, so that the shooting of the shooting assembly is controlled.
Further, the singlechip is an 8-bit singlechip.
Further, the external wireless ad hoc network modules of other APs are carried by any carrier.
Based on the above, the external other AP wireless ad hoc network modules may be carried by a person, an unmanned plane, or any other carrier that can install the AP wireless ad hoc network modules.
In order to more clearly illustrate the above-mentioned features of the present utility model and its intended objects, the present utility model will be further described with reference to the accompanying drawings and examples.
Drawings
Fig. 1: schematic diagrams of the components of the utility model;
fig. 2: the utility model is a schematic diagram for matching with an external signal.
Reference numerals illustrate: the camera comprises a 10-camera shell, a 1-camera shooting assembly, a 2-wireless ad hoc network communication module, a 3-pyroelectric infrared sensing assembly, a 31-pyroelectric infrared sensor, a 32-singlechip, a 4-common power supply, a 5-memory card and a 6-control chip.
Detailed Description
As shown in fig. 1 and fig. 2, an infrared camera for low-power consumption standby ad hoc network communication comprises a camera housing 10, wherein a camera shooting assembly 1, a wireless ad hoc network communication module 2, a pyroelectric infrared sensing assembly 3, a common power supply 4, a memory card 5 and a control chip 6 are arranged in the camera housing 10, the camera shooting assembly 1, the wireless ad hoc network communication module 2, the pyroelectric infrared sensing assembly 3 and the memory card 5 are all in electric signal connection with the control chip 6, the common power supply 4 is in electric connection with the control chip 6, the wireless ad hoc network communication module 2 and the pyroelectric infrared sensing assembly 3, the wireless ad hoc network communication module 2 is a WIFI module, and the wireless ad hoc network communication module is adjusted to be in a STA mode, when the infrared camera is in standby, the wireless ad hoc network communication module 2 waits for other AP wireless ad hoc network modules matched with external keys in a certain range, and is understood that the wireless ad hoc network communication module is in an STA mode, and the wireless ad hoc network communication module is 700M or a special low-power consumption wireless ad hoc network communication module is in a low-frequency band mode or a special stand-by mode, and the wireless ad hoc network communication module can be in a wireless ad hoc network communication mode after the wireless ad hoc network communication module is in a wireless ad hoc network communication mode, and the wireless ad hoc network communication device is in a standby mode, and the wireless ad hoc network can be in a standby mode is connected with the wireless ad hoc network and the wireless network station, and the wireless ad hoc network communication device is in a standby mode, and the wireless station is in a standby mode; in the utility model, because the wireless ad hoc network in the camera is standby with ultra-low power consumption, the power supply only needs a simple and cheap common power supply; the beneficial effect of the subassembly is made a video recording for shooting surrounding environment animal, and the beneficial effect of pyroelectric infrared sensing subassembly is for sensing whether there is the animal to control the subassembly work of making a video recording, so make a video recording the subassembly need not to open always, be in standby state at ordinary times can save more electric quantity, the beneficial effect of memory card is the photo that the memory card is shot, and control chip's beneficial effect is the course of working according to established procedure control infrared camera.
The standby current of the wireless ad hoc network communication module 2 is 0.5-1 milliamp, and it is understood that the wireless ad hoc network communication module has the ultra-low power consumption standby characteristic, and the standby current is less than 1 milliamp, so that the infrared camera can perform long-time endurance.
The communication distance of the wireless ad hoc network communication module 2 is 0-1.5 km, the communication speed is more than 700 kbytes per second, it is understood that the maximum communication distance range of the wireless ad hoc network communication module can reach 1.5 km, and the communication speed is 700 kbytes per second at the lowest, thus the utility model has the characteristics of wide signal coverage range and fast uploading data.
As shown in fig. 1, the pyroelectric infrared sensor assembly 3 is provided with a pyroelectric infrared sensor 31 and a single chip microcomputer 32, a signal input end of the single chip microcomputer 32 is connected with a signal output end of the pyroelectric infrared sensor 31, and a signal output end of the single chip microcomputer 32 is connected with a signal input end of the control chip 6, and it is understood that when the pyroelectric infrared sensor receives a heat signal sent by an animal, the heat signal is converted into a digital signal by the single chip microcomputer and then is transferred to the control chip for processing, so that the shooting of the shooting assembly is controlled.
The single-chip microcomputer 32 is an 8-bit single-chip microcomputer.
As shown in fig. 2, the external other AP wireless ad hoc network module is carried by any carrier, and it should be understood that the external other AP wireless ad hoc network module may be carried by a person, an unmanned plane, or any other carrier capable of mounting the AP wireless ad hoc network module.
In summary, the specific embodiments of the present utility model are as follows: the infrared camera is in a standby state before working, when an animal passes through, the pyroelectric infrared sensor receives a heat signal, the signal is converted into a digital signal which can be processed by the control chip by the singlechip and then is transmitted to the control chip, the control chip sends a signal to the camera shooting component for shooting processing, and an image original file generated by the control chip enters the memory card for storage after being processed by the control chip; when the wireless ad hoc network communication module receives signals of the ad hoc network communication module matched with other external keys, the wireless ad hoc network communication module is connected in a wireless mode, signals are sent out to the control chip at the same time, the purposes of reading data of the memory card and uploading the data to external equipment are achieved, and finally the external equipment brings the data back to a user and downloads the data to the user for study.
The above description is only of the best mode for carrying out the utility model, and is not intended to limit the utility model, but it is intended that modifications and substitutions made by those skilled in the art without departing from the spirit and scope of the utility model.
Claims (6)
1. An infrared camera of low-power consumption standby's ad hoc network communication, includes camera shell (10), its characterized in that: the camera shell (10) is internally provided with a camera shooting assembly (1), a wireless ad hoc network communication module (2), a pyroelectric infrared sensing assembly (3), a common power supply (4), a memory card (5) and a control chip (6), the camera shooting assembly (1), the wireless ad hoc network communication module (2), the pyroelectric infrared sensing assembly (3) and the memory card (5) are all connected with the control chip (6) through electric signals, the wireless self-organizing network comprises a control chip (6), a wireless self-organizing network communication module (2) and a pyroelectric infrared sensing assembly (3), wherein the common power supply (4) is electrically connected with the control chip (6), the wireless self-organizing network communication module (2) is a WIFI module, the WIFI module is adjusted to be in an STA mode, and when an infrared camera is in standby mode, the wireless self-organizing network communication module (2) can wait for other AP wireless self-organizing network modules matched with keys outside a certain range to wake up.
2. The low power standby ad hoc network communication infrared camera of claim 1, wherein: the standby current of the wireless ad hoc network communication module (2) is 0.5-1 milliamp.
3. The low power standby ad hoc network communication infrared camera of claim 1, wherein: the communication distance of the wireless ad hoc network communication module (2) is 0-1.5 km, and the communication speed is more than 700 kbytes per second.
4. The low power standby ad hoc network communication infrared camera of claim 1, wherein: the thermal release infrared sensing assembly (3) is provided with a thermal release infrared sensor (31) and a singlechip (32), a signal input end of the singlechip (32) is connected with a signal output end of the thermal release infrared sensor (31), and a signal output end of the singlechip (32) is connected with a signal input end of the control chip (6).
5. The low power standby ad hoc network communication infrared camera of claim 4, wherein: the singlechip (32) is an 8-bit singlechip.
6. The low power standby ad hoc network communication infrared camera of claim 1, wherein: the external wireless ad hoc network modules of other APs are carried by any carrier.
Priority Applications (1)
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CN202320925089.7U CN219678600U (en) | 2023-04-23 | 2023-04-23 | Low-power consumption standby infrared camera for ad hoc network communication |
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CN202320925089.7U CN219678600U (en) | 2023-04-23 | 2023-04-23 | Low-power consumption standby infrared camera for ad hoc network communication |
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CN219678600U true CN219678600U (en) | 2023-09-12 |
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CN202320925089.7U Active CN219678600U (en) | 2023-04-23 | 2023-04-23 | Low-power consumption standby infrared camera for ad hoc network communication |
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- 2023-04-23 CN CN202320925089.7U patent/CN219678600U/en active Active
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