CN220359282U - Be applied to energy-conserving collector of big dipper location of forestry protection - Google Patents

Abstract

The utility model relates to the technical field of electronic communication, in particular to a Beidou positioning energy-saving acquisition device applied to forestry protection, which comprises an outer shell, wherein the outer shell comprises a lower shell and an upper cover plate arranged on the lower shell, an acquisition circuit board is arranged in the outer shell, a main control chip and a forestry data acquisition chip connected with the main control chip are arranged on the acquisition circuit board, a frequency modulation signal communication device, a sensor communication device, a Beidou positioning device and a Beidou short message communication device.

Description

Be applied to energy-conserving collector of big dipper location of forestry protection

Technical Field

The utility model relates to the technical field of electronic communication, in particular to a Beidou positioning energy-saving collector.

Background

In the prior art, in practical application of forestry safety monitoring, an irregular measurement instruction is required to be sent to a collector remotely according to different monitored objects, so that a telemetry function is realized. The current common implementation is realized by sending telemetry instructions through a 4G link, so that the 4G module is required to be powered for a long time, and more battery power is consumed. In order to facilitate the installation, use and operation of the device, most dry batteries provide electric power for the collector, and are usually installed in an integrated collector structure to supply power to the collector. In addition, the existing low-power-consumption scheme of the collector is mainly started from the electronic device module with low power consumption, and no strict low-power-consumption work control logic exists.

Disclosure of Invention

The utility model aims to provide the Beidou positioning energy-saving acquisition device applied to forestry protection, which solves the technical problems;

the technical problems solved by the utility model can be realized by adopting the following technical scheme:

the Beidou positioning energy-saving collector applied to forestry protection comprises an outer shell, wherein the outer shell comprises a lower shell and an upper cover plate (101) arranged on the lower shell, a collecting circuit board (301) is arranged in the outer shell, the collecting circuit board (301) is provided with a plurality of connecting rods,

a main control chip (2);

the forestry data acquisition chip (5) is used for acquiring forestry data and is connected with the main control chip (2);

a frequency modulation signal communication device (401) for connecting an external frequency modulation telemetry signal transmitting device (12) and connecting the main control chip (2);

the wireless communication device (402) is used for connecting an external cloud platform and is connected with the main control chip (2);

the sensor communication device (304) is used for connecting an external sensor (13) and is connected with the main control chip (2);

the Beidou positioning device (305) is connected with the main control chip (2) to output positioning signals;

and the Beidou short message communication device (403) is connected with the main control chip (2) to output message signals.

Preferably, the acquisition circuit board (301) is also provided with,

the data storage (4) is used for storing the forestry data and is connected with the main control chip (2);

a clock manager (3) for providing a clock signal, connected to the master control chip (2);

the debugging device (17) is used for equipment debugging and firmware upgrading and is connected with the main control chip (2);

the Beidou short message communication device (403) is connected with an external communication satellite through the Beidou short message antenna device (404);

and the debugging interface (303) is connected to the acquisition circuit board (301) and is positioned in the outer shell.

Preferably, the method further comprises the steps of,

a frequency modulation antenna device (11), wherein the frequency modulation signal communication device (401) is connected with the frequency modulation telemetry signal transmitting equipment (12) through the frequency modulation antenna device (11);

and the wireless communication device (402) is connected with the cloud platform through the communication antenna device (15).

Preferably, the acquisition circuit board (301) is also provided with,

the first electronic relay (61) is connected to a passage between the Beidou positioning device (305) and the main control chip (2);

the second electronic relay (71) is connected to a passage between the sensor communication device (304) and the main control chip (2);

the third electronic relay (81) is connected to a passage between the Beidou short message communication device (403) and the main control chip (2);

and the fourth electronic relay (91) is connected to a passage between the wireless communication device (402) and the main control chip (2).

Preferably, a power supply battery (201) is further arranged in the outer shell, the power supply battery (201) is located at the bottom of the collection circuit board (305), an interactive key (302) for switching on and off power supply of the power supply battery (201) is arranged on the collection circuit board (301), a power supply manager (1) for distributing power supply voltage is further arranged on the collection circuit board (301), an electric energy receiving end of the power supply manager (1) is connected with the power supply battery (201), and one working voltage output end of the power supply manager (1) is connected with the main control chip (2).

Preferably, a handle (102) is arranged at the top end of the outer shell, and a fixing hole (103) is arranged on the handle.

Preferably, the outer shell is provided with a positioning hole (104) for connecting the lower shell and the upper cover plate (101).

Preferably, the collecting circuit board (301) is fixed on the lower housing, and the upper cover plate is arranged above the collecting circuit board (301).

Preferably, a sealing strip (105) is arranged between the lower shell and the upper cover plate (101).

Preferably, a plurality of sensor waterproof channel interfaces (106) are arranged at the bottom of the outer shell.

The utility model has the beneficial effects that: by adopting the technical scheme, the remote measurement function of the collector is realized through frequency modulation signal communication, the problem of long power supply of the 4G module in the existing 4G link remote measurement scheme is solved, and the power consumption of equipment is reduced to a certain extent.

Drawings

FIG. 1 is a schematic diagram of a mechanism of a Beidou positioning energy-saving collector in an embodiment of the utility model;

FIG. 2 is a diagram of a device connection structure of the Beidou positioning energy-saving acquisition device in an embodiment of the utility model;

fig. 3 is a schematic diagram of operation logic steps of the beidou positioning energy-saving collector in the embodiment of the utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

As shown in fig. 1 and 2, the Beidou positioning energy-saving collector applied to forestry protection comprises an outer shell, wherein the outer shell comprises a lower shell and an upper cover plate 101 arranged on the lower shell, a collecting circuit board 301 is arranged in the outer shell, the collecting circuit board 301 is provided with,

a main control chip 2; specifically, the main control chip 2 is used for performing communication interaction with the surrounding connected electronic device modules to send control signals and process transmission signals.

The forestry data acquisition chip 5 is used for acquiring forestry data and is connected with the main control chip 2;

the frequency modulation signal communication device 401 is used for connecting the external frequency modulation telemetry signal transmitting equipment 12 and is connected with the main control chip 2;

the wireless communication device 402 is used for connecting the external cloud platform 16 and is connected with the main control chip 2;

the sensor communication device 304 is used for connecting an external sensor 13 and is connected with the main control chip 2;

the Beidou positioning device 305 is connected with the main control chip 2 to output positioning signals; specifically, the Beidou positioning device 305 is used for acquiring equipment position information

The Beidou short message communication device 403 is connected with the main control chip 2 to output message signals; specifically, the beidou short message communication device 403 is used for interacting with satellite communication.

Specifically, the collecting circuit board 301 is fixed on the lower housing, and the upper cover plate 101 is used for fixing and protecting the package of the collecting circuit board 301.

Specifically, the utility model has the Frequency Modulation (FM) signal communication device 401, the remote measurement signal is sent by the frequency modulation remote measurement signal transmitting equipment 12, the remote measurement signal is received by the frequency modulation signal communication device 401 and fed back to the main control chip 2, the remote measurement function of the collector is realized, the problem of long power supply of the 4G module in the 4G link remote measurement scheme in the prior art is solved, and the equipment power consumption is reduced to a certain extent. In addition, the low-power consumption control logic is strict, and the power supply of the electric device can be controlled according to the working time sequence so as to control the low power consumption.

The utility model has a plurality of sensor communication devices 304 for accessing the sensor 13 and interactively communicating with the sensor 13 to obtain the measurement information of the sensor 13. Meanwhile, the automatic acquisition control, data calculation and transmission of the sensor measurement data are realized through the automatic acquisition module and the wireless communication device 402, and the utility model has the characteristics of high integration level, low cost, good adaptability and the like.

In a preferred embodiment, the acquisition board 301 is also provided with,

the data storage 4 is used for storing forestry data and is connected with the main control chip 2;

a clock manager 3 for providing clock signals, connected to the main control chip 2; specifically, the clock manager 3 is configured to provide an accurate clock and record time information;

the debugging device 17 is used for equipment debugging and firmware upgrading and is connected with the main control chip 2;

the Beidou short message antenna device 404, and the Beidou short message communication device 403 is connected with an external communication satellite through the Beidou short message antenna device 404;

the debugging interface 303 is connected to the acquisition circuit board 301 and is located in the outer shell, the debugging interface 303 is used for debugging equipment, upgrading firmware and the like, and the debugging interface 303 is arranged in the outer shell due to the low use frequency of the debugging interface 303, so that the utility model can play a role in protecting against rain and dust.

In a preferred embodiment, the method further comprises,

a frequency modulation antenna device 11, and a frequency modulation signal communication device 401 is connected with a frequency modulation telemetry signal transmitting device 12 through the frequency modulation antenna device 11; specifically, the fm signal communication device 401 is configured to receive the telemetry signal sent by the fm telemetry signal transmitting device 12 through the fm antenna device 11, and feed back the telemetry signal to the main control chip 2 for processing, so as to implement the telemetry function of the collector.

The communication antenna device 15, the wireless communication device 402 is connected to the cloud platform 16 through the communication antenna device 15.

Specifically, the wireless communication device 402 employs a 4G remote communication device, the communication antenna device 15 employs a 4G communication antenna, and the 4G remote communication device is configured to interact with the cloud platform 16 through a 4G link via the 4G antenna, and upload data to the cloud platform 16.

In a preferred embodiment, the acquisition board 301 is also provided with,

the first electronic relay 61 is connected to a passage between the Beidou positioning device 305 and the main control chip 2;

the second electronic relay 71 is connected to the path between the sensor communication device 304 and the main control chip 2;

the third electronic relay 81 is connected to a path between the Beidou short message communication device 403 and the main control chip 2;

the fourth electronic relay 91 is connected to a path between the wireless communication device 402 and the main control chip 2.

Specifically, the collector provided by the utility model operates with low power consumption, the circuit structure of the low power consumption collector is integrated with a plurality of electronic relays, and the power on-off of the Beidou positioning device 305, the sensor communication device 304, the Beidou short message communication device 403 and the wireless communication device 402 is realized by controlling the on-off of the corresponding electronic relays.

Furthermore, the low-power-consumption collector provided by the utility model adopts a low-power-consumption control logic framework. According to the logic control framework, the collector can realize power on-off of the Beidou positioning device 305, the sensor communication device 304, the Beidou short message communication device 403 and the wireless communication device 402 according to a low-power consumption mode. Meanwhile, the sensor 13 can perform communication interaction with the collector according to the control framework and the corresponding protocol to complete automatic collection, processing and transmission of data.

In a preferred embodiment, a power supply battery 201 is further arranged in the outer shell, the power supply battery 201 is located at the bottom of the collecting circuit board 301, an interactive key 302 for switching on and off power supply of the power supply battery 201 is arranged on the collecting circuit board 301, a power manager 1 for distributing power supply voltage is further arranged on the collecting circuit board 301, an electric energy receiving end of the power manager 1 is connected with the power supply battery 201, and one working voltage output end of the power manager 1 is connected with the main control chip 2.

Specifically, in the utility model, because the use frequency of the interactive key 302 is low, the interactive key 302 is mainly used for restarting after parameters are configured, so that the interactive key 302 is also arranged in the outer shell, and the waterproof and dustproof protection function is achieved, and meanwhile, the mistaken touch of other people can be prevented.

Specifically, the power supply battery 201 in this embodiment employs a lithium battery.

Specifically, the power manager 1 is used to provide electrical power to the electronic device.

In a preferred embodiment, the top end of the outer shell is provided with a carrying handle 102 for facilitating the carrying of the device by a user, and the carrying handle 102 is provided with a fixing hole 103, wherein the fixing hole 103 is used for the installation and fixing of the device.

In a preferred embodiment, the outer shell is provided with a positioning hole 104 for connecting the lower shell and the upper cover plate 101; specifically, the upper cover plate and the lower cover plate of the shell are fixed through screws.

In a preferred embodiment, the collection circuit board 301 is fixed on the lower housing, and the upper cover plate is disposed above the collection circuit board 301 for packaging and protection.

In a preferred embodiment, a sealing strip 105 is arranged between the lower shell and the upper cover plate 101, and is used for outdoor waterproof and dustproof equipment and protecting the acquisition circuit board 301.

In a preferred embodiment, the bottom of the outer housing is provided with a plurality of sensor waterproof channel interfaces 106.

The working logic of the Beidou positioning energy-saving collector provided by the utility model comprises three stages and 14 steps, as shown in fig. 3, and the specific steps are as follows:

stage one, initialization stage

Step S1: and (5) powering up the system and initializing the collector.

Step S2: the first electronic relay 61, the second electronic relay 71, the third electronic relay 81 and the fourth electronic relay 91 are kept in a power-off state, and the Beidou positioning device 305, the sensor communication device 304, the Beidou short message communication device 403 and the wireless communication device 402 are kept in a power-on state.

Step S3: setting relevant working parameters of a collector: the data reporting time interval T1, the working time interval T2 is measured by the sensor 13, the working compensation time T3 is measured by the sensor 13, the acquisition interval T4 for acquiring the data of the sensor 13 by the interaction communication of the acquisition device and the sensor 13, and the data resolving interval T5.

Step S4: the first electronic relay 61, the second electronic relay 71, the third electronic relay 81 and the fourth electronic relay 91 are electrified, and the Beidou positioning device 305, the sensor communication device 304, the Beidou short message communication device 403 and the wireless communication device 402 are powered off, so that the main control chip 2 enters a standby state.

Stage two, sensor 13 measuring stage

Step S5: judging whether the collector receives a telemetry instruction, if not, waiting for the uploading interval T1 to reach and then executing the step S6, and if so, directly executing the step S6.

Step S6: after the telemetry command is received or the reporting time interval T1 arrives, the first electronic relay 61 and the second electronic relay 71 are powered off, the Beidou positioning device 305 and the sensor communication device 304 are powered on, the collector sends the measurement command of the sensor 13, and the Beidou positioning device 305 acquires the equipment position information after the measurement time of T2, and the sensor 13 completes the measurement work.

Step S7: after the T2 is finished, measuring and compensating time interval T3 through the sensor 13, and acquiring sensor 13 data through interaction communication between the acquisition device and the inclinometer, wherein the acquisition interval is T4.

Step S8: and judging that the acquired data quantity reaches the set quantity, if yes, executing the step S9, and if not, returning to executing the step S7.

Step S9: after the data acquisition and storage are completed, the first electronic relay 61 and the second electronic relay 71 are powered on, and the Beidou positioning device 305 and the sensor communication device 304 are powered off.

Step S10: judging whether the data needs to be analyzed, if yes, executing the step S11, and if not, directly executing the step S12.

Step S11: analyzing the acquired data.

Step S12: and finishing data calculation processing on the data through a resolving interval T5, and storing the data to be locally and continuously refreshing in a covering way.

Stage three, sensor 13 measurement completion and data upload stage

Step S13: after the calculation and storage of the measurement data are completed in the T5 time interval, the third electronic relay 81 is powered off, the fourth electronic relay 91 is powered off, the Beidou short message communication device 403 and the wireless communication device 402 are powered on, and the data are sent to the cloud platform 16 through the Beidou satellite and the 4G link.

Step S14: after the data transmission is completed, the third electronic relay 81 and the fourth electronic relay 91 are powered on, the power supplies of the Beidou short message communication device 403 and the wireless communication device 402 are cut off, a low power consumption mode is entered, and the process returns to the step S4 again.

In summary, the utility model has the following beneficial effects:

1) The provided collector is provided with the frequency modulation signal communication device 401, and the telemetry signal sent by the frequency modulation telemetry signal transmitting equipment 12 is received, and the received telemetry signal is fed back to the main control module, so that the telemetry function of the collector is realized, the problem of long power supply of the 4G module in the 4G link telemetry scheme is solved, and the equipment power consumption is reduced to a certain extent.

2) By adopting the low-power control logic framework, the collector can control the power supply and the power failure of the electronic device by utilizing the low-power control logic according to the working time sequence, so as to realize the low-power work of the equipment.

3) The collector has big dipper locate function and big dipper short message communication function and through the power of electronic relay's break-make control big dipper positioner 305, sensor communication device 304, big dipper short message communication device 403 and wireless communication device 402, has that the functional module is clear, the structure is inseparable, convenient operation, power supply is convenient, the environmental adaptation is good the low-power consumption circuit structure of collector.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (10)

1. The Beidou positioning energy-saving collector applied to forestry protection is characterized by comprising an outer shell, wherein the outer shell comprises a lower shell and an upper cover plate (101) arranged on the lower shell, a collecting circuit board (301) is arranged in the outer shell, the collecting circuit board (301) is provided with a plurality of connecting rods,

a main control chip (2);

the forestry data acquisition chip (5) is used for acquiring forestry data and is connected with the main control chip (2);

a frequency modulation signal communication device (401) for connecting an external frequency modulation telemetry signal transmitting device (12) and connecting the main control chip (2);

the wireless communication device (402) is used for connecting an external cloud platform and is connected with the main control chip (2);

the sensor communication device (304) is used for connecting an external sensor (13) and is connected with the main control chip (2);

the Beidou positioning device (305) is connected with the main control chip (2) to output positioning signals;

and the Beidou short message communication device (403) is connected with the main control chip (2) to output message signals.

2. The Beidou positioning and energy saving acquisition device according to claim 1, wherein the acquisition circuit board (301) is further provided with a plurality of positioning and energy saving devices,

the data storage (4) is used for storing the forestry data and is connected with the main control chip (2);

a clock manager (3) for providing a clock signal, connected to the master control chip (2);

the debugging device (17) is used for equipment debugging and firmware upgrading and is connected with the main control chip (2);

the Beidou short message communication device (403) is connected with an external communication satellite through the Beidou short message antenna device (404);

and the debugging interface (303) is connected to the acquisition circuit board (301) and is positioned in the outer shell.

3. The Beidou positioning energy-saving acquisition device of claim 1, further comprising,

a frequency modulation antenna device (11), wherein the frequency modulation signal communication device (401) is connected with the frequency modulation telemetry signal transmitting equipment (12) through the frequency modulation antenna device (11);

and the wireless communication device (402) is connected with the cloud platform through the communication antenna device (15).

4. The Beidou positioning and energy saving acquisition device according to claim 1, wherein the acquisition circuit board (301) is further provided with a plurality of positioning and energy saving devices,

the first electronic relay (61) is connected to a passage between the Beidou positioning device (305) and the main control chip (2);

the second electronic relay (71) is connected to a passage between the sensor communication device (304) and the main control chip (2);

the third electronic relay (81) is connected to a passage between the Beidou short message communication device (403) and the main control chip (2);

and the fourth electronic relay (91) is connected to a passage between the wireless communication device (402) and the main control chip (2).

5. The Beidou positioning energy-saving acquisition device of claim 1, wherein a power supply battery (201) is further arranged in the outer shell, the power supply battery (201) is located at the bottom of the acquisition circuit board (301), an interactive key (302) for switching on and off power supply of the power supply battery (201) is arranged on the acquisition circuit board (301), a power manager (1) for distributing power supply voltage is further arranged on the acquisition circuit board (301), an electric energy receiving end of the power manager (1) is connected with the power supply battery (201), and one working voltage output end of the power manager (1) is connected with the main control chip (2).

6. The Beidou positioning energy-saving collector of claim 1, wherein a carrying handle (102) is arranged at the top end of the outer shell, and a fixing hole (103) is formed in the carrying handle.

7. The Beidou positioning energy-saving collector of claim 1, wherein the outer shell is provided with a positioning hole (104) for connecting the lower shell and the upper cover plate (101).

8. The Beidou positioning energy-saving acquisition device of claim 1, wherein the acquisition circuit board (301) is fixed on the lower shell, and the upper cover plate is arranged above the acquisition circuit board (301).

9. The Beidou positioning energy-saving collector of claim 1, wherein a sealing strip (105) is arranged between the lower shell and the upper cover plate (101).

10. The Beidou positioning energy-saving acquisition device of claim 1, wherein a plurality of sensor waterproof channel interfaces (106) are arranged at the bottom of the outer shell.