CN114518130B - Multifunctional general outdoor function box and monitoring method thereof - Google Patents
Multifunctional general outdoor function box and monitoring method thereof Download PDFInfo
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- CN114518130B CN114518130B CN202210208624.7A CN202210208624A CN114518130B CN 114518130 B CN114518130 B CN 114518130B CN 202210208624 A CN202210208624 A CN 202210208624A CN 114518130 B CN114518130 B CN 114518130B
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- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D11/00—Component parts of measuring arrangements not specially adapted for a specific variable
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- G—PHYSICS
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- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
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- G—PHYSICS
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- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
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Abstract
The invention discloses a multifunctional general outdoor functional box and a monitoring method thereof, wherein the multifunctional general outdoor functional box comprises a vertical rod and a body arranged on the vertical rod, wherein a communication module for receiving data of each peripheral device and a controller for sending control signals to each peripheral device are arranged in the body; the top of the upright rod is provided with an installation rod, a sliding groove is arranged in the upright rod, one end of the installation rod is installed in the sliding groove in a sliding manner towards the vertical direction, and the other end of the installation rod is provided with a wind driven generator; the position of the upright rod close to the bottom is provided with support rods at intervals along the circumferential direction, one end of each support rod is arranged on the upright rod, and the other end of each support rod is arranged in a downward inclination manner towards the direction far away from the upright rod; the pole setting is equipped with and is used for driving the installation pole simultaneously and slides in the inslot that slides and the bracing piece is towards the gliding actuating mechanism of length direction. The method and the device have the effects of reducing the control and maintenance difficulty of each peripheral equipment site and improving the maintenance efficiency of the fault peripheral equipment.
Description
Technical Field
The invention relates to the field of outdoor data acquisition devices, in particular to a multifunctional general outdoor function box and a monitoring method thereof.
Background
With the continuous development of society, some facilities or environment detection devices and the like can be built in some remote areas, for example, mountain water plants, peripheral devices of the facilities or the environment detection devices are scattered in dozens of places of the mountain, and inspection personnel need to walk to the corresponding peripheral devices at regular time to perform control and maintenance.
At present, an inspection worker needs to go to dozens of peripheral equipment sites in sequence at regular time to control and maintain the peripheral equipment in each site.
In view of the above-mentioned related technologies, the inventor believes that there are defects that the difficulty of sequentially going to the peripheral equipment location for control and maintenance is high, and the efficiency of repairing the failed peripheral equipment is low.
Disclosure of Invention
In order to reduce the control and maintenance difficulty of each peripheral device location and improve the maintenance efficiency of fault peripheral devices, the application provides a multifunctional general outdoor function box and a monitoring method thereof.
First aspect, the application provides a multi-functional general outdoor function case adopts following technical scheme:
a multifunctional general outdoor functional box comprises a vertical rod and a body arranged on the vertical rod, wherein a communication module for receiving data of each peripheral device and a controller for sending control signals to each peripheral device are arranged in the body; the top of the upright rod is provided with an installation rod, a sliding groove is formed in the upright rod, one end of the installation rod is installed in the sliding groove in a sliding manner in the vertical direction, and the other end of the installation rod is provided with a wind driven generator; the position of the upright rod close to the bottom is provided with support rods at intervals along the circumferential direction, one end of each support rod is arranged on the upright rod, and the other end of each support rod is arranged in a downward inclination manner towards the direction far away from the upright rod; the pole setting is equipped with and is used for driving the installation pole simultaneously and slides in the inslot that slides and the bracing piece is towards the gliding actuating mechanism of length direction.
By adopting the technical scheme, the data detected by the peripheral equipment distributed in each place is sent to the body, the body receives the data through the communication module, and then whether the peripheral equipment is in a normal working state or not can be detected through the data, so that the inspection personnel can directly perform targeted maintenance on the corresponding peripheral equipment according to the result judged by the body, the control and maintenance difficulty of each peripheral equipment place is reduced, and the maintenance efficiency of the fault peripheral equipment is improved; when extreme weather such as storm and the like is detected to be about to occur near the body, the body can send a control signal to each peripheral device through the controller, and the peripheral devices are controlled to transmit data and store the data to the local, so that data loss is reduced; then, the driving mechanism is started, and the mounting rod is driven to slide in the sliding groove and the supporting rod slides towards the length direction at the same time, so that the mounting rod is retracted into the sliding groove, the damage to the wind driven generator in extreme weather is reduced, the air resistance is reduced, and the overall stability is improved; make the bracing piece insert more deeply towards soil in addition, and then promote the holistic stability of pole setting to make and also can carry out smoothly receiving data under extreme weather and the condition that does not influence data transmission.
Preferably, the drive mechanism includes: the driving rod is installed in the sliding groove in a sliding mode, one end of the driving rod is connected to one end, located in the sliding groove, of the installation rod, the other end of the driving rod is sleeved with the guide block, the guide block is in a circular truncated cone shape, and the cross sectional area of the guide block is gradually reduced from one end, close to the installation rod, to the end, far away from the installation rod; one end of the supporting rod close to the vertical rod extends into the sliding groove; the drive mechanism further includes: and the driving component is used for driving the driving rod to slide.
Through adopting above-mentioned technical scheme, when extreme weather appears, start drive assembly, order about the actuating lever and slide towards vertical lapse in the inslot that slides to not only can draw the installation pole into the inslot that slides, the outer wall inclined plane effect of accessible guide block orders about a bracing piece and slides along self length direction in addition, reaches deeper soil more, thereby can reach simultaneous driving through same power supply, has reduced driving cost.
Preferably, the driving assembly includes: the mounting box is mounted outside the upright rod, and the rack is mounted on the driving rod; the rotating rod is rotatably arranged in the installation box, the gear is sleeved on the rotating rod, and the gear is meshed with the rack; the drive assembly further includes: and the first driving piece is used for driving the rotating rod to rotate.
Through adopting above-mentioned technical scheme, start first driving piece, the drive dwang rotates to can drive the gear and rotate together, rethread rack's the mutually supporting actuating lever that can order about slides in the groove that slides, this drive mode is simple, and the drive efficiency is high.
Preferably, a connecting rod is installed on the side wall of the vertical rod close to the top, one end of the connecting rod is hinged to the vertical rod, and a solar panel is installed at the other end of the connecting rod; the pole setting is equipped with and is used for driving connecting rod pivoted second driving piece.
By adopting the technical scheme, the solar panel and the wind driven generator are used for supplying power for the body and the driving mechanism together, so that the influence on the normal operation of the body and the driving mechanism due to insufficient electric quantity is reduced; and when extreme weather appeared, also can take place to rotate through second driving piece drive connecting rod, namely make solar panel press close to the pole setting more, reduce air resistance.
Preferably, the second drive member comprises: the solar panel mounting device comprises a pull rope and a reset piece, wherein a connecting groove is arranged in the vertical rod, one end of the connecting groove is communicated with the position corresponding to the solar panel, and the other end of the connecting groove is communicated with the inside of the mounting box; one end of the pull rope is wound on the rotating rod, and the other end of the pull rope extends out of the vertical rod along the connecting groove and is connected to the connecting rod; when the dwang orders about the stay cord and unreels, reset the piece and be used for ordering about the connecting rod and rotate to initial condition.
By adopting the technical scheme, when the first driving piece drives the rotating rod to rotate, the pull rope is driven to roll, then the connecting rod can be pulled to rotate, the connecting rod is pulled to be close to the vertical rod, and further the solar panel is close to the vertical rod, so that the same power source for driving the installation rod and the support rod to move is adopted, the cost is reduced, the simultaneity is achieved, and the implementation efficiency of protective measures for the function box is improved; and after extreme weather passed, the accessible drive dwang unreeled, made the connecting rod rotate to initial condition through the effect that resets, and solar panel keeps away from the pole setting promptly, accomplishes daylighting better.
Preferably, the reset piece comprises a sleeve, a telescopic rod and an elastic piece, a mounting groove is formed outside the upright rod and in a position corresponding to the connecting rod, one end of the sleeve is hinged to the bottom of the mounting groove, the other end of the sleeve is used for the telescopic rod to slide, the sleeve is communicated with the connecting groove, one end, far away from the sleeve, of the telescopic rod is hinged to the connecting rod, and the elastic piece is located between the telescopic rod and the bottom of the sleeve; the sleeve and the telescopic link are worn to locate to the one end that the dwang was kept away from to the stay cord.
By adopting the technical scheme, when the rotating rod is unreeled, the telescopic rod extends outwards towards the sleeve under the action of the elastic piece, so that the connecting rod can be driven to rotate to recover to the initial state; and make the sleeve be located the mounting groove through setting up the mounting groove to when the telescopic link retraction sleeve, the connecting rod can be close to the pole setting more.
In a second aspect, the present application provides a monitoring method, which adopts the following technical scheme:
a monitoring method based on any of the multi-functional universal outdoor functional boxes, the method comprising:
acquiring estimated weather information of the position of the vertical rod, and judging the stability of the vertical rod according to the estimated weather information, wherein the judgment result comprises abnormal stability and normal stability;
if the judgment result is that the stability is abnormal, triggering a stability strengthening instruction, and sending the local storage information to each peripheral equipment terminal according to the preset total ID information;
if the stability is normal, acquiring primary data information of each peripheral device, and acquiring primary peripheral device ID information corresponding to each primary data according to the primary data information;
judging whether the preset total ID information appears in the primary peripheral equipment ID information or not according to the primary peripheral equipment ID information and the preset total ID information;
if not, acquiring the ID information of the data to be collected which does not appear in the ID information of the primary peripheral equipment according to the preset total ID information, and sending the ID information of the data to be collected to the inspection personnel terminal.
By adopting the technical scheme, when the detection time is up, the estimated weather condition at the position of the upright stanchion is firstly obtained, the influence of the estimated weather information on the stability of the upright stanchion is judged, and when the stability is judged to be abnormal, a stability strengthening instruction is triggered to strengthen the stability of the upright stanchion; local storage information is sent to each peripheral device, and data which need to be sent to the function box in the weather forecast time period is stored locally, so that data loss is reduced; when the stability is determined to be normal, acquiring primary peripheral equipment ID information corresponding to each piece of data from the primary data information through the acquired primary data information, then judging whether preset total ID information is in the primary peripheral equipment ID information, if not, indicating that the peripheral equipment fails to send data, sending the ID information with unsuccessful data sending to an inspection personnel terminal, and reminding the inspection personnel of preparing maintenance for the peripheral equipment, so that not only can the data of each peripheral equipment be collected, but also the inspection personnel can more pertinently reach the corresponding peripheral equipment for maintenance, the control and maintenance difficulty of each peripheral equipment site is reduced, and the maintenance efficiency of the fault peripheral equipment is improved.
Preferably, if not, after acquiring ID information of data to be collected, which does not appear in the ID information of the primary peripheral device, according to preset total ID information and sending the ID information of the data to be collected to an inspector terminal, the method further includes:
after acquiring next data collection instruction information, acquiring secondary data information of each peripheral device, acquiring secondary peripheral device ID information corresponding to each secondary data according to the secondary data information, and judging whether two groups of data information exist in the to-be-collected data ID of the secondary peripheral device ID or not according to the secondary peripheral device ID information and the to-be-collected data ID information;
and if not, forming the ID information of the data to be collected which does not appear in the ID of the secondary peripheral equipment and the ID information of the data to be collected which does not have two groups of data to determine fault information and sending the fault information to the inspection personnel terminal.
By adopting the technical scheme, when next data collection is carried out, the secondary data information of each peripheral device is firstly obtained, the secondary peripheral device ID information corresponding to each secondary data is obtained from the secondary data information, then whether the ID of the data to be collected, which appears in the ID of the secondary peripheral device, contains two groups of data which are collected at this time and are not collected at the last time or not is judged, finally the ID information of the data to be collected, which does not appear in the ID of the secondary peripheral device, and the ID information of the data to be collected, which does not have two groups of data, are formed into the determined fault information and sent to the inspection personnel terminal, and the inspection personnel are informed which peripheral devices are determined to have faults and need to carry out targeted maintenance treatment in time; whether the peripheral equipment fails or not is determined through twice data collection, and accuracy is improved.
Preferably, if not, after determining that the fault information is sent to the inspection personnel terminal by forming the ID information of the data to be collected which does not appear in the ID of the secondary peripheral device and the ID information of the data to be collected which does not have two groups of data, the method further includes:
acquiring missing data ID information which does not appear in the ID of the data to be collected and the ID of the secondary peripheral equipment in the total ID at the same time according to the ID information of the secondary peripheral equipment, the ID information of the data to be collected and preset total ID information;
acquiring the position information of each peripheral device, and acquiring the position information of the missing data peripheral device according to the position information and the ID information of the missing data;
marking ID information of data to be collected which does not appear in ID of secondary peripheral equipment and ID information of data to be collected which does not have two groups of data as ID information to be maintained, and acquiring the position information to be maintained according to the position information of each peripheral equipment and the ID information to be maintained;
judging whether the position of the missing data peripheral equipment exists in the position to be maintained within the preset distance of the square circle or not according to the position information of the missing data peripheral equipment and the position information to be maintained;
and if so, sending the corresponding position information of the missing data peripheral equipment to the inspection personnel terminal.
By adopting the technical scheme, because the peripheral equipment is far away, when the peripheral equipment which is determined to have faults is maintained, missing data ID information which does not exist in the ID of the data to be collected and the ID of the secondary peripheral equipment in the total ID can be determined at first, and the position of the missing data peripheral equipment is obtained; and then acquiring the positions to be maintained of the ID information to be maintained, and comparing each position to be maintained with each missing data peripheral device position, so that the peripheral devices corresponding to the ID information to be maintained near the peripheral devices corresponding to the positions to be maintained can also be maintained and checked, and the maintenance efficiency of inspection personnel is improved.
Preferably, the acquiring the primary data information of each peripheral device includes:
judging whether the number of peripheral equipment missing primary data is larger than a preset threshold value or not according to the primary data information;
if yes, triggering a standby switching instruction.
By adopting the technical scheme, the number of peripheral equipment missing primary data is calculated from primary data information, then the number is compared with a preset threshold value, and when the body is judged to have a fault, a standby switching instruction is triggered, so that the function continuity of the body for data collection is improved.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the data detected by the peripheral equipment distributed in each place is sent to the body, the body receives the data through the communication module, and then whether the peripheral equipment is in a normal working state or not can be detected through the data, so that the inspection personnel can directly carry out targeted maintenance on the corresponding peripheral equipment according to the result judged by the body, the control and maintenance difficulty of each peripheral equipment site is reduced, and the maintenance efficiency of the fault peripheral equipment is improved; when extreme weather such as storm and the like is detected to be about to occur near the body, the body can send a control signal to each peripheral device through the controller, and the peripheral devices are controlled to transmit data and store the data to the local, so that data loss is reduced;
2. the driving mechanism is started, and the mounting rod is driven to slide in the sliding groove and the supporting rod slides towards the length direction at the same time, so that the mounting rod is retracted into the sliding groove, the damage to the wind driven generator in extreme weather is reduced, the air resistance is reduced, and the overall stability is improved; in addition, the supporting rods are inserted more deeply into the soil, so that the overall stability of the vertical rods is improved, and data can be smoothly received in extreme weather without influencing data transmission;
3. because the peripheral equipment is far away, when the peripheral equipment which is determined to have faults is maintained, missing data ID information which does not exist in the ID of the data to be collected and the ID of the secondary peripheral equipment in the total ID can be determined, and the position of the missing data peripheral equipment is obtained; and then acquiring the positions to be maintained of the ID information to be maintained, and comparing each position to be maintained with each missing data peripheral device position, so that the peripheral devices corresponding to the ID information to be maintained near the peripheral devices corresponding to the positions to be maintained can also be maintained and checked, and the maintenance efficiency of inspection personnel is improved.
Drawings
Fig. 1 is a schematic view of the overall structure of the present application.
Fig. 2 is a cross-sectional view of the overall structure of the present application.
Fig. 3 is a sectional view of the drive mechanism of the present application.
Fig. 4 is a sectional view of the internal structure of the installation case of the present application.
Fig. 5 is a partially enlarged view of a in fig. 2.
Fig. 6 is a flow chart of a monitoring method according to an embodiment of the present application.
Fig. 7 is a flowchart after step S50 in the monitoring method according to an embodiment of the present application.
Fig. 8 is a flowchart after step S52 in the monitoring method according to an embodiment of the present application.
Fig. 9 is a flowchart after acquiring initial data information of each peripheral device in the monitoring method according to an embodiment of the present application.
Description of reference numerals:
1. erecting a rod; 11. a sliding groove; 12. mounting a rod; 13. a wind power generator; 14. a connecting rod; 15. a solar panel; 16. a support bar; 17. a limiting groove; 18. connecting grooves; 19. mounting grooves; 2. a body; 21. an accommodating box; 22. a communication module; 23. a controller; 24. storing the power supply; 3. a drive mechanism; 31. a drive rod; 32. a guide block; 33. installing a box; 34. a rack; 35. rotating the rod; 36. a gear; 37. a first driving member; 38. pulling a rope; 39. a reset member; 391. a sleeve; 392. a telescopic rod; 393. an elastic member; 394. a telescopic groove.
Detailed Description
The present application is described in further detail below with reference to figures 1-9.
The embodiment of the application discloses multi-functional general outdoor function case. Referring to fig. 1 and 2, the multifunctional general outdoor functional box comprises a vertical rod 1 and a body 2, wherein one end of the vertical rod 1 is fixed on the ground, and the other end of the vertical rod extends upwards vertically; the body 2 comprises an accommodating box 21, a communication module 22, a controller 23 and a storage power supply 24, the accommodating box 21 is fixedly arranged in the upright rod 1, and the communication module 22, the controller 23 and the storage power supply 24 are all fixedly arranged in the accommodating box 21; the communication module 22, the controller 23 and the storage power supply 24 are respectively provided with two groups, so that when one group is used, the other group can be used as a standby; the communication module 22 and the controller 23 are electrically connected to the storage power supply 24, and the communication module 22 is used for receiving data of each peripheral device; the controller 23 is a programmable logic controller 23, and the controller 23 is used to control peripheral devices.
Referring to fig. 1 and 2, a sliding groove 11 is formed in an upright rod 1, the sliding groove 11 extends in the vertical direction, a mounting rod 12 is arranged at the top of the upright rod 1, the mounting rod 12 extends in the vertical direction, one end of the mounting rod 12 is slidably mounted in the sliding groove 11, and the other end of the mounting rod extends out of the top of the upright rod 1; one end of the mounting rod 12, which extends out of the upright rod 1, is provided with a wind driven generator 13, and the wind driven generator 13 is electrically connected with a storage power supply 24, so that the storage power supply 24 can be charged when the environment is windy; connecting rod 14 is all installed to the relative both sides of the lateral wall that pole setting 1 is close to the top, and the one end fixed mounting that pole setting 1 was kept away from to connecting rod 14 has solar panel 15, and solar panel 15 is to the slope of sunny one side up, and solar panel 15 is connected with storage power supply 24 electricity to can charge storage power supply 24 when the environment of locating is in sunny day.
The position that pole setting 1 is close to the bottom is provided with bracing piece 16 along circumference equidistant, and the one end of bracing piece 16 is installed in pole setting 1 with the sliding, and the other end inclines to extend and be used for inserting soil downwards towards the direction of keeping away from pole setting 1, and the direction of sliding of bracing piece 16 is unanimous with the length direction of bracing piece 16, and pole setting 1 is provided with and is used for driving installation pole 12 to slide in sliding groove 11 and bracing piece 16 towards the gliding actuating mechanism 3 of length direction.
Referring to fig. 2 and 3, the driving mechanism 3 includes a driving rod 31 and a guide block 32, the driving rod 31 extends toward the length direction of the sliding slot 11, the driving rod 31 is installed in the sliding slot 11 in a sliding manner, one end of the driving rod 31 is fixedly connected with one end of the installation rod 12 located in the sliding slot 11, the guide block 32 is sleeved at the other end of the driving rod 31, the guide block 32 is in a circular truncated cone shape, the cross-sectional area of the guide block 32 is gradually reduced from one end close to the installation rod 12 to one end far away from the installation rod 12, that is, the outer side wall of the guide block 32 is in an inclined shape; one end of the support rod 16 close to the upright rod 1 extends into the sliding groove 11 and is positioned on one side of the guide block 32 far away from the installation rod 12, and one end of the support rod 16 extending into the sliding groove 11 corresponds to the outer side wall of the guide block 32; the driving mechanism 3 further includes a driving component, when the driving rod 31 is driven to slide vertically downwards by the driving component, the driving rod 31 can drive the supporting rod 16 to slide while drawing the mounting rod 12 into the sliding groove 11, so as to improve the stability of the vertical rod 1 while reducing the air resistance.
More specifically, the top end of the vertical rod 1 is provided with a limiting groove 17 for the blade of the wind driven generator 13 to be clamped in, so that when the mounting rod 12 slides into the sliding groove 11, the blade of the wind driven generator 13 is clamped in the limiting groove 17, and damage to the wind driven generator 13 caused by typhoon and other weather is reduced.
The driving component comprises an installation box 33, a rack 34, a rotating rod 35, a gear 36 and a first driving part 37, the installation box 33 is fixedly installed on the outer side wall of the upright rod 1, the installation box 33 is communicated with the sliding groove 11, the rotating rod 35 extends towards the horizontal direction, two ends of the rotating rod 35 are rotatably installed on the inner wall of the installation box 33, and the gear 36 is sleeved on the rotating rod 35; the rack 34 extends towards the vertical direction, the rack 34 is fixedly arranged on the outer side wall of the driving rod 31 corresponding to the installation box 33, and the rack 34 is meshed with the gear 36; first driving piece 37 is the motor, and first driving piece 37 fixed mounting is in install bin 33, and the output shaft and the dwang 35 fixed connection of first driving piece 37 to can order about actuating lever 31 to slide.
Referring to fig. 4 and 5, the upright rod 1 is provided with a second driving member, the second driving member comprises a pull rope 38 and a reset member 39, one end of the connecting rod 14 far away from the solar panel 15 is hinged to the upright rod 1, and a hinged shaft of the connecting rod 14 is horizontally arranged; a connecting groove 18 is formed in the vertical rod 1, the connecting groove 18 extends towards the vertical direction, one end of the connecting groove 18 is communicated with the position corresponding to the solar panel 15, and the other end of the connecting groove 18 is communicated with the inside of the mounting box 33; stay cord 38 is located the spread groove 18, and spread groove 18 and fixed mounting are extended to the one end of stay cord 38 and just the winding is located dwang 35 in connecting rod 14, the other end extend into install bin 33 to when dwang 35 takes place the rotary type and carries out the rolling to stay cord 38, then can pull connecting rod 14 and rotate to solar panel 15 and be close to pole setting 1, further reduce air resistance.
The reset piece 39 comprises a sleeve 391, a telescopic rod 392 and an elastic piece 393, the outer side wall of the upright rod 1 is provided with a mounting groove 19 corresponding to the position of the connecting rod 14, one end of the sleeve 391 is hinged at the bottom of the mounting groove 19, the other end of the sleeve 391 is provided with a telescopic groove 394, one end of the telescopic rod 392 is slidably mounted in the telescopic groove 394, and the other end of the telescopic rod 392 extends out of the telescopic groove 394 and is hinged at the connecting rod 14; the elastic member 393 is a spring, the elastic member 393 is arranged in the telescopic groove 394, one end of the elastic member 393 is fixedly installed at the groove bottom of the telescopic groove 394, the other end of the elastic member 393 is fixedly connected with one end of the telescopic rod 392 in the telescopic groove 394, one end of the pull rope 38 far away from the rotating rod 35 extends into the telescopic groove 394 and is fixedly installed at one end of the telescopic rod 392 in the telescopic groove 394, and therefore when the pull rope 38 is unwound, the connecting rod 14 can be driven to return to the initial state through the action of the elastic member 393.
The implementation principle of the multifunctional general outdoor function box in the embodiment of the application is as follows: when extreme weather occurs in the environment where the vertical rod 1 is located, the first driving piece 37 is started to drive the rotating rod 35 to rotate, the driving rod 31 is driven to vertically move downwards in the sliding groove 11, the mounting rod 12 can be pulled into the sliding groove 11, the blades of the wind driven generator 13 are clamped into the limiting groove 17, and the supporting rod 16 is driven to slide through the guide block 32, so that the supporting rod 16 is further inserted into soil; simultaneously along with the rotation of dwang 35, carry out the rolling to stay cord 38, pulling connecting rod 14 takes place to rotate, can reduce air resistance, improves overall stability.
The embodiment of the present application further discloses a monitoring method, which specifically includes the following steps with reference to fig. 6:
s10: the method comprises the steps of obtaining estimated weather information of the position where the vertical rod is located, and judging the stability of the vertical rod according to the estimated weather information, wherein the judgment result comprises abnormal stability and normal stability.
Specifically, estimated weather information of the position where the vertical rod is located is obtained in real time from weather forecast, and the grade of wind is obtained from the estimated weather information; and then judging the stability of the vertical rod through the vertical rod wind resistance grade obtained through multiple experiments, namely comparing the grade of wind obtained in real time with the vertical rod wind resistance grade, wherein when the grade of the wind is greater than that of the vertical rod wind resistance, the judgment result is abnormal in stability, and when the grade of the wind is less than that of the vertical rod wind resistance, the judgment result is normal in stability.
S20: and if the judgment result is that the stability is abnormal, triggering a stability strengthening instruction, and sending the local storage information to each peripheral equipment terminal according to the preset total ID information.
Specifically, when the stability is abnormal, a stability enhancing instruction is triggered, the first driving piece is started, the mounting rod is driven to retract into the sliding groove, the supporting rod is further inserted into the soil, and the connecting rod rotates, so that the integral air resistance is reduced, and the integral stability is improved; and sending the local storage information to each peripheral equipment terminal according to the preset total ID information, so that the data detected by each peripheral equipment is stored locally, and the condition of data loss caused by the influence of extreme weather is reduced.
S30: and if the stability is normal, acquiring primary data information of each peripheral device, and acquiring primary peripheral device ID information corresponding to each primary data according to the primary data information.
Specifically, when the stability is normal, the communication module is used for transmitting data through 4G/3G/2G signals, if the position of the upright rod has no communication signal, the data can be transmitted through the data transmission platform module through radio wave signals, so that first data collection of each peripheral device is performed, the first data information of each peripheral device is obtained, then the peripheral devices with complete data are screened out from the first data information, and the first peripheral device ID information corresponding to the peripheral devices with complete data is obtained.
S40: and judging whether the preset total ID information is present in the primary peripheral ID information or not according to the primary peripheral ID information and the preset total ID information.
In the present embodiment, the preset total ID information refers to ID data recorded when each peripheral device is installed.
Specifically, each primary peripheral ID information is compared with preset total ID information, and whether the preset total IDs are all present in the primary peripheral ID is determined, that is, whether the number of peripheral devices with complete data is the total number of peripheral devices is determined.
S50: if not, acquiring the ID information of the data to be collected which does not appear in the ID information of the primary peripheral equipment according to the preset total ID information, and sending the ID information of the data to be collected to the inspection personnel terminal.
Specifically, if the preset total IDs do not appear in the primary peripheral device IDs, namely the peripheral devices with missing data exist, the IDs which do not appear in the primary peripheral device IDs are screened out from the preset total IDs, the IDs are called to-be-collected data IDs, and finally the ID information of the to-be-collected data is sent to an inspection personnel terminal to remind an inspection personnel that the peripheral devices corresponding to the to-be-collected data IDs are abnormal in operation, so that the inspection personnel can perform targeted monitoring on the peripheral devices.
In an embodiment, as shown in fig. 7, after step S50, the method further includes:
s51: and after acquiring the next data collection instruction information, acquiring secondary data information of each peripheral device, acquiring secondary peripheral device ID information corresponding to each secondary data according to the secondary data information, and judging whether two groups of data information exist in the to-be-collected data ID of the secondary peripheral device ID or not according to the secondary peripheral device ID information and the to-be-collected data ID information.
In this embodiment, the two sets of data are data stored locally in the ID to be collected if data transmission is not completed in the first data collection, and data stored locally in the first data collection and data collected locally in the second data collection are transmitted together.
Specifically, after the first data collection is completed, when the next data collection instruction information is obtained, the second data collection is performed to obtain the secondary data information of each peripheral device, then the peripheral devices with complete data are screened out from the secondary data information, and then the secondary peripheral device ID information corresponding to the peripheral devices with complete data is obtained; and then screening the ID in the ID of the secondary peripheral equipment from the ID of the data to be collected, and judging whether two groups of complete data exist in the secondary data corresponding to the ID, namely further judging whether the peripheral equipment corresponding to the ID of the data to be collected is abnormal or not, so that the condition of misjudgment is reduced.
S52: and if not, forming the ID information of the data to be collected which does not appear in the ID of the secondary peripheral equipment and the ID information of the data to be collected which does not have two groups of data to determine fault information and sending the fault information to the inspection personnel terminal.
Specifically, if it is determined that two sets of data information do not exist in the to-be-collected data ID of the secondary peripheral device ID, the to-be-collected data ID information that does not exist in the secondary peripheral device ID and the to-be-collected data ID information that does not exist in the two sets of data are formed into determined fault information, and the determined fault information is sent to the inspection personnel terminal, so that the inspection personnel is informed of the peripheral device information with incomplete data when the primary data collection and the secondary data collection are performed, the inspection personnel can accurately perform targeted maintenance on the peripheral device, and the maintenance efficiency is improved.
In an embodiment, as shown in fig. 8, after step S52, the method further includes:
s53: and acquiring missing data ID information which does not appear in the ID of the data to be collected and the ID of the secondary peripheral equipment in the total ID according to the ID information of the secondary peripheral equipment, the ID information of the data to be collected and preset total ID information.
Specifically, each to-be-collected data ID and each secondary peripheral ID are compared with preset total ID information, and IDs that do not appear in the to-be-collected data ID and the secondary peripheral ID at the same time in the total ID are screened out, that is, IDs whose data are complete during the first data collection but incomplete during the second data collection are screened out, and the IDs are referred to as missing data IDs, that is, missing data ID information is obtained.
S54: and acquiring the position information of each peripheral device, and acquiring the position information of the missing data peripheral device according to the position information and the ID information of the missing data.
Specifically, when each peripheral device is installed, the position of each peripheral device is marked in the virtual map, so that the position of each peripheral device can be directly acquired from the virtual map, and then the position of the missing data peripheral device corresponding to the missing data ID is acquired in each peripheral device position.
S55: and marking ID information of the data to be collected which does not appear in the ID of the secondary peripheral equipment and the ID information of the data to be collected which does not have two groups of data as ID information to be maintained, and acquiring the position information to be maintained according to the position information of each peripheral equipment and the ID information to be maintained.
Specifically, ID information of data to be collected which does not appear in ID of secondary peripheral equipment and ID information of data to be collected which does not have two groups of data are marked as ID information to be maintained, namely ID information corresponding to peripheral equipment which is determined to be in fault is marked as ID information to be maintained; and then acquiring the position to be maintained corresponding to the ID to be maintained in each peripheral equipment position.
S56: and judging whether the position of the peripheral equipment with the missing data exists in the preset distance of the square circle at each position to be maintained according to the position information of the peripheral equipment with the missing data and the position information to be maintained.
In this embodiment, the predetermined distance is a straight distance that the inspector can travel in 10 minutes.
Specifically, the position to be maintained is a position that the inspection staff must reach, so that the range of each position to be maintained in the preset distance of the square circle is marked in the virtual map, and then whether the position of missing data peripheral equipment exists in the range of the preset distance of the square circle of each position to be maintained is judged, namely whether the position of the missing data peripheral equipment which can reach in 10 minutes exists near the position to be maintained when the inspection staff reaches the position to be maintained is judged, so that the peripheral equipment which corresponds to the ID to be maintained can be maintained while the peripheral equipment which is not determined to be in fault nearby is maintained, and the maintenance efficiency is improved.
S57: and if so, sending the corresponding position information of the missing data peripheral equipment to the inspection personnel terminal.
Specifically, if the position to be maintained has the missing data peripheral device position in the range of the square-circle preset distance, the corresponding missing data peripheral device position information is sent to the inspection personnel terminal, the inspection personnel is reminded that the position to be maintained can reach the corresponding missing data peripheral device position to be maintained when the inspection personnel reaches each position to be maintained, and the maintenance efficiency is improved.
In one embodiment, as shown in fig. 9, acquiring the primary data information of each peripheral device includes:
s31: and judging whether the number of the peripheral devices missing the primary data is greater than a preset threshold value or not according to the primary data information.
In this embodiment, the predetermined threshold refers to a quantity value that the ontology can determine as a fault.
Specifically, in the primary data collected by the body, the number of peripheral devices with primary data missing is compared with a predetermined threshold, and whether the number of peripheral devices with primary data missing is greater than the predetermined threshold is determined, that is, whether the body can be determined as a fault is determined, in this embodiment, the predetermined threshold is half of the total number of peripheral devices.
S32: if yes, triggering a standby switching instruction.
Specifically, if it is determined that the number of peripheral devices missing primary data is greater than a predetermined threshold, a standby switching instruction is triggered, that is, a standby group of the body is started, so that normal operation of the body is ensured.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (6)
1. A multifunctional universal outdoor functional box is characterized by comprising an upright rod (1) and a body (2) arranged on the upright rod (1), wherein a communication module (22) used for receiving data of each peripheral device and a controller (23) used for sending control signals to each peripheral device are arranged in the body (2); the top of the upright rod (1) is provided with a mounting rod (12), a sliding groove (11) is formed in the upright rod (1), one end of the mounting rod (12) is installed in the sliding groove (11) in a sliding mode towards the vertical direction, and the other end of the mounting rod is provided with a wind driven generator (13); the supporting rods (16) are arranged at the positions, close to the bottom, of the vertical rods (1) at intervals along the circumferential direction, one ends of the supporting rods (16) are installed on the vertical rods (1), and the other ends of the supporting rods are arranged in a downward inclined mode towards the direction far away from the vertical rods (1); the upright rod (1) is provided with a driving mechanism (3) which is used for simultaneously driving the mounting rod (12) to slide in the sliding groove (11) and the supporting rod (16) to slide towards the length direction;
the drive mechanism (3) comprises: the sliding mechanism comprises a driving rod (31) and a guide block (32), wherein the sliding groove (11) extends towards the vertical direction, the driving rod (31) is installed in the sliding groove (11) in a sliding mode, one end of the driving rod (31) is connected to one end, located in the sliding groove (11), of the installation rod (12), the other end of the driving rod is sleeved with the guide block (32), the guide block (32) is in a circular truncated cone shape, and the cross sectional area of the guide block (32) is gradually reduced from one end close to the installation rod (12) to one end far away from the installation rod (12); one end of the support rod (16) close to the vertical rod (1) extends into the sliding groove (11); the drive mechanism (3) further comprises: a driving component for driving the driving rod (31) to slide;
the drive assembly includes: the device comprises an installation box (33), a rack (34), a rotating rod (35) and a gear (36), wherein the installation box (33) is installed outside the vertical rod (1), and the rack (34) is installed on a driving rod (31); the rotating rod (35) is rotatably installed in the installation box (33), the gear (36) is sleeved on the rotating rod (35), and the gear (36) is meshed with the rack (34); the drive assembly further includes: a first driving member (37) for driving the rotating rod (35) to rotate;
a connecting rod (14) is installed on the side wall, close to the top, of the vertical rod (1), one end of the connecting rod (14) is hinged to the vertical rod (1), and a solar panel (15) is installed at the other end of the connecting rod; the upright rod (1) is provided with a second driving piece for driving the connecting rod (14) to rotate;
the second drive member includes: the solar energy collecting device comprises a pull rope (38) and a reset piece (39), wherein a connecting groove (18) is arranged in the vertical rod (1), one end of the connecting groove (18) is communicated with the position corresponding to the solar panel (15), and the other end of the connecting groove is communicated with the inside of the installation box (33); one end of the pull rope (38) is wound on the rotating rod (35), and the other end of the pull rope extends out of the upright rod (1) along the connecting groove (18) and is connected with the connecting rod (14); when the rotating rod (35) drives the pull rope (38) to unreel, the resetting piece (39) is used for driving the connecting rod (14) to rotate to the initial state.
2. The multifunctional general outdoor functional box according to claim 1, wherein the reset member (39) comprises a sleeve (391), a telescopic rod (392) and an elastic member (393), a mounting groove (19) is provided outside the upright (1) and corresponding to the position of the connecting rod (14), one end of the sleeve (391) is hinged to the bottom of the mounting groove (19), the other end of the sleeve (391) is provided for the telescopic rod (392) to slide, the sleeve (391) is communicated with the connecting groove (18), one end of the telescopic rod (392) far away from the sleeve (391) is hinged to the connecting rod (14), and the elastic member (393) is located between the telescopic rod (392) and the bottom of the sleeve (391); one end of the pull rope (38) far away from the rotating rod (35) penetrates through the sleeve (391) and the telescopic rod (392).
3. A monitoring method based on the multifunctional universal outdoor functional box of any one of claims 1-2, wherein the method comprises:
acquiring estimated weather information of the position of the vertical rod, and judging the stability of the vertical rod according to the estimated weather information, wherein the judgment result comprises abnormal stability and normal stability;
if the judgment result is that the stability is abnormal, triggering a stability enhancing instruction, starting a first driving piece, further driving an installation rod to be retracted into a sliding groove, a supporting rod to be inserted into soil more deeply and a connecting rod to rotate, and sending local storage information to each peripheral equipment terminal according to preset total ID information;
if the stability is normal, acquiring primary data information of each peripheral device, and acquiring primary peripheral device ID information corresponding to each primary data according to the primary data information;
judging whether the preset total ID information appears in the primary peripheral equipment ID information or not according to the primary peripheral equipment ID information and the preset total ID information;
if not, acquiring the ID information of the data to be collected which does not appear in the ID information of the primary peripheral equipment according to the preset total ID information, and sending the ID information of the data to be collected to the inspection personnel terminal.
4. The monitoring method according to claim 3, wherein if not, after acquiring the ID information of the data to be collected which does not appear in the ID information of the primary peripheral device according to preset total ID information and sending the ID information of the data to be collected to the inspection personnel terminal, the method further comprises:
after acquiring next data collection instruction information, acquiring secondary data information of each peripheral device, acquiring secondary peripheral device ID information corresponding to each secondary data according to the secondary data information, and judging whether two groups of data information exist in the to-be-collected data ID of the secondary peripheral device ID or not according to the secondary peripheral device ID information and the to-be-collected data ID information;
if not, forming and determining fault information by the ID information of the data to be collected which does not appear in the ID of the secondary peripheral equipment and the ID information of the data to be collected which does not have two groups of data, and sending the fault information to the inspection personnel terminal;
the two groups of data are data stored in the local by the ID of the data to be collected if data transmission is not completed during the first data collection, and data stored in the local by the first data collection and data collected by the second data collection are transmitted together during the second data collection.
5. The monitoring method according to claim 4, wherein if not, after determining that fault information is sent to the inspection personnel terminal by forming ID information of data to be collected which does not appear in the ID of the secondary peripheral device and ID information of data to be collected which does not exist in the two groups of data, the method further comprises:
acquiring missing data ID information which does not appear in the ID of the data to be collected and the ID of the secondary peripheral equipment in the total ID at the same time according to the ID information of the secondary peripheral equipment, the ID information of the data to be collected and preset total ID information;
acquiring the position information of each peripheral device, and acquiring the position information of the missing data peripheral device according to the position information and the ID information of the missing data;
marking ID information of data to be collected which does not appear in ID of secondary peripheral equipment and ID information of data to be collected which does not have two groups of data as ID information to be maintained, and acquiring the position information to be maintained according to the position information of each peripheral equipment and the ID information to be maintained;
judging whether the position of each to-be-maintained position has the missing data peripheral equipment position within the preset distance of the square circle or not according to the missing data peripheral equipment position information and the to-be-maintained position information;
and if so, sending the corresponding position information of the missing data peripheral equipment to the inspection personnel terminal.
6. A monitoring method according to claim 3, wherein said obtaining primary data information of each peripheral device comprises:
judging whether the number of peripheral equipment missing primary data is larger than a preset threshold value or not according to the primary data information;
if yes, triggering a standby switching instruction.
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