CN209570193U - A kind of field digital sensor monitoring system - Google Patents
A kind of field digital sensor monitoring system Download PDFInfo
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- CN209570193U CN209570193U CN201920352468.5U CN201920352468U CN209570193U CN 209570193 U CN209570193 U CN 209570193U CN 201920352468 U CN201920352468 U CN 201920352468U CN 209570193 U CN209570193 U CN 209570193U
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- digital sensor
- communication terminal
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- solar cell
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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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
- Y02E10/56—Power conversion systems, e.g. maximum power point trackers
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Abstract
The utility model discloses a kind of field digital sensors to monitor system, comprising: cloud, several communication terminals, several digital sensors;The communication terminal and the digital sensor include working condition and standby mode;Digital sensor is mounted on monitoring field, obtains field monitoring data, and digital sensor and communication terminal are wirelessly connected, for field monitoring data to be sent to communication terminal in working condition and receive control instruction from communication terminal;Communication terminal and cloud are wirelessly connected, for the monitoring data received to be sent to cloud in working condition and receive control instruction from cloud;The case surface of the communication terminal and the digital sensor is mounted on photovoltaic module, the power input connection of the power input, digital sensor of the power output end and communication terminal of photovoltaic module, it realizes and is powered using small area photovoltaic module, without laying-out, lower-cost technical effect.
Description
Technical field
The utility model relates to remotely monitor field, and in particular, to a kind of field digital sensor monitoring system.
Background technique
It is gradually popularized with development, remote supervision system with advances in technology, long-range monitoring has to be participated in without artificial, is saved
The advantages of Shi Shengli, but existing remote supervision system but exists on solving the problems, such as power problems.
Terminal in remote supervision system is such as located at the monitoring sensor at scene and carries out the communication terminal of communications, leads to
Letter terminal needs carry out data transmission between background server and field monitoring sensor, communication terminal and field monitoring sensing
Device is required to be powered, and there are higher costs if being specially laid with corresponding power supply line, and removes after the completion of monitoring with regard to needs
From arrive next end, and need re-lay;Also have in the prior art using solar energy or solar energy and wind energy combination pair
Communication terminal and field monitoring sensor are powered, and are not necessarily to laying-out, but solar energy conversion efficiency in the prior art
It is low, and be easy to be influenced generating efficiency by weather and environment and can not be protected, same wind-power electricity generation is also unstable, cannot
Enough long-term uses for ensureing communication terminal and field monitoring sensor, and the solar energy of large area and wind-power electricity generation component cost
It is higher, it is easily stolen, use can not be popularized.
Utility model content
The utility model provides a kind of field digital sensor monitoring system, solves remote monitoring terminal equipment power dissipation
Larger technical problem is realized and is powered using small area photovoltaic module, and laying-out, lower-cost technology effect are not necessarily to
Fruit.
To realize above-mentioned purpose of utility model, this application provides a kind of field digital sensors to monitor system, field number
Word sensor monitoring system includes: cloud, several communication terminals, several digital sensors;The communication terminal and the number
Sensor includes working condition and standby mode;Digital sensor is mounted on monitoring field, obtains field monitoring data, number
Sensor and communication terminal are wirelessly connected, for field monitoring data to be sent to communication terminal in working condition and from logical
Believe that terminal receives control instruction;Communication terminal and cloud are wirelessly connected, for sending out the monitoring data received in working condition
It send to cloud and receives control instruction from cloud, the case surface of the communication terminal and the digital sensor is mounted on
The power input of photovoltaic module, the power output end of photovoltaic module and communication terminal, the power input of digital sensor connect
It connects, due to the lower power consumption of communication terminal and digital sensor, the lesser solar components of usable floor area can meet its confession
Electricity demanding, then price is lower for the lesser solar components of area, it is not easy to stolen.
The switching of communication terminal and digital sensor state is more mature in the prior art with control in the utility model
Technology, the emphasis of the utility model is powered using small area photovoltaic module, is avoided traditional laying-out or is adopted
The drawbacks of being combined with large area photovoltaic module and wind-power electricity generation.Communication terminal and digital sensor are all made of in the utility model
Existing mode is set as including working condition and standby mode;Wherein, the transmission or instruction of progress data when working condition
Interaction, when not needing to carry out data transmission, communication terminal and digital sensor enter standby mode, power consumption when standby mode
It is lower, and then avoid communication terminal and digital sensor is chronically at the working condition of high power consumption, communication is extended indirectly eventually
The use time of battery in end and digital sensor, so that communication terminal and digital sensor can satisfy field long-time service
Demand, reduce after power consumption using small area solar components be powered can meet demand, and small area solar components valence
Lattice are cheap, and anti-theft effect is preferable.
Further, the first controller is installed on the shell of the digital sensor, first controller with it is described
Digital sensor connection, first controller are cut between working condition and standby mode for controlling the digital sensor
It changes.
Further, second controller is installed, the second controller leads to described on the shell of the communication terminal
Believe terminal connection, the second controller switches between working condition and standby mode for the communication terminal.
Further, the photovoltaic module is specially Thinfilm solar cell assembly, and the photovoltaic module passes through installation knot
Structure is mounted on the shell of the communication terminal or the shell of the digital sensor, the mounting structure include: fixed plate,
Several vacuum chucks, adhesive layer, the first fixed rope, the second fixed rope, the first lock, the second lock, several vacuum chucks are uniform
It is distributed in fixed back, fixed plate is absorbed and fixed at the outer casing frontispiece or the number of the communication terminal by vacuum chuck
On the outer casing frontispiece of word sensor, fixed plate front is equipped with adhesive layer, and Thinfilm solar cell assembly is fitted in by adhesive layer
The one end in fixed plate front, first fixed rope one end and Thinfilm solar cell assembly connects, the first fixed rope other end and the
One lock connection;The other end of second fixed rope one end and Thinfilm solar cell assembly connection, the second fixed rope other end with
Second lock connection;First lock is connect with the second snap fit, and the first lock and the second lock are each attached to the communication eventually
On the shell rear surface of the shell rear surface at end or the digital sensor.
Wherein, photovoltaic module is fitted in fixed plate, fixed plate is fixed on the shell of communication terminal and digital sensor
On, fixed plate is adsorbed on the shell by vacuum chuck, fix stably and easy to disassemble and recycle, then solid by 2
The engaging member for the collar-like that fixed rope and 2 locks are formed is arranged on the shell, i.e., is arranged photovoltaic module on the shell, fixed
It is firm, and, simple installation not damaged to shell.
Wherein, the photovoltaic module is specially Thinfilm solar cell assembly, light using Thinfilm solar cell assembly
It is easily installed, and it can fold and be bent and conveniently adapt to complicated use environment, in the Thinfilm solar cell assembly
Thin-film solar cell panel edge is fixed with connector, and connector surface is uniformly provided with the first screw hole, the communication terminal it is outer
The second screw hole is uniformly provided on the shell of shell and the digital sensor, screw is inserted into film in the first screw hole and the second screw hole
Solar cell module is fixed on the shell of the communication terminal or the shell of the digital sensor, is connected through a screw thread energy
Enough firm is fixed on the shell by photovoltaic module.
Wherein, the connector is made of rubber, can be bent using rubber, is easy to use, the connector appearance
Face is flute profile, and friction can be increased by being designed as flute profile, prevents connector from falling off.
One or more technical solution provided by the present application, has at least the following technical effects or advantages:
It solves the larger technical problem of remote monitoring terminal equipment power dissipation, realizes and carried out using small area photovoltaic module
Power supply is not necessarily to laying-out, lower-cost technical effect.
Detailed description of the invention
Attached drawing described herein is used to provide to further understand the utility model embodiment, constitutes the one of the application
Part does not constitute the restriction to the utility model embodiment;
Fig. 1 is that field digital sensor monitors system power dissipation control method schematic diagram in the application;
Fig. 2 is one of scheme of installation of solar components in the application;
Fig. 3 is another scheme of installation of solar components in the application.
Specific embodiment
In order to be more clearly understood that the above objects, features, and advantages of the utility model, with reference to the accompanying drawing and have
The utility model is further described in detail in body embodiment.It should be noted that in the case where not conflicting mutually,
Feature in embodiments herein and embodiment can be combined with each other.
Many details are explained in the following description in order to fully understand the utility model, still, this is practical
It is novel to be implemented using other different from the other modes being described herein in range, therefore, the protection of the utility model
Range is not limited by the specific embodiments disclosed below.
Referring to FIG. 1, this application provides a kind of field digital sensors to monitor system power dissipation control method, field number
Sensor monitoring system includes: cloud, several communication terminals, several digital sensors;The communication terminal and the number pass
Sensor includes working condition and standby mode;Digital sensor is mounted on monitoring field, obtains field monitoring data, and number passes
Sensor and communication terminal wireless connection, such as GPS, WLAN or infrared ray or radio frequency, bluetooth etc., for that will show in working condition
Field monitoring data are sent to communication terminal and receive control instruction from communication terminal;Communication terminal and cloud are wirelessly connected, and are used
In in working condition by the monitoring data received be sent to cloud and from cloud receive control instruction.The communication terminal and
The case surface of the digital sensor is mounted on photovoltaic module, the power output end of photovoltaic module and the power supply of communication terminal
The power input connection of input terminal, digital sensor, due to the lower power consumption of communication terminal and digital sensor, using face
The lesser solar components of product can meet its power demands, and then price is lower for the lesser solar components of area, it is not easy to quilt
It steals.
The switching of communication terminal and digital sensor state is more mature in the prior art with control in the utility model
Technology, the emphasis of the utility model is powered using small area photovoltaic module, is avoided traditional laying-out or is adopted
The drawbacks of being combined with large area photovoltaic module and wind-power electricity generation.Communication terminal and digital sensor are all made of in the utility model
Existing mode is set as including working condition and standby mode;Wherein, the transmission or instruction of progress data when working condition
Interaction, when not needing to carry out data transmission, communication terminal and digital sensor enter standby mode, power consumption when standby mode
It is lower, and then avoid communication terminal and digital sensor is chronically at the working condition of high power consumption, communication is extended indirectly eventually
The use time of battery in end and digital sensor, so that communication terminal and digital sensor can satisfy field long-time service
Demand, reduce after power consumption using small area solar components be powered can meet demand, and small area solar components valence
Lattice are cheap, and anti-theft effect is preferable.
Field digital sensor monitoring system in the application is available specially as ENVIS digitalized network monitors system
System, comprising: Ali cloud or Tencent cloud, HRMJ-U.FLP-ST2 or MURATA mobile phone RF radio frequency testing head MM126038 or
TD86038600 communication terminal, digital sensor (such as C2/5T weighing sensor or WXJ-300kg, WXJ-400kg, WXJ-
500kg or DTC-A-2.5t or ZSN-D-500000 code etc.).
Wherein, in the embodiment of the present application, the first controller, the first control are installed on the shell of the digital sensor
The model SPC-STW-1810 or SPC-STW-S0402CTR or SPC-STW-26A1 etc. of device, first controller and institute
Digital sensor connection is stated, first controller is for controlling the digital sensor between working condition and standby mode
Switching.
Wherein, in the embodiment of the present application, second controller, second controller are installed on the shell of the communication terminal
Model SPC-STW-1810 or SPC-STW-S0402CTR or SPC-STW-26A1 etc., the second controller with it is described
Communication terminal connection, the second controller switch between working condition and standby mode for the communication terminal.
Further, the case surface of the communication terminal and the digital sensor is mounted on photovoltaic module, photovoltaic
The power input connection of the power input, digital sensor of the power output end and communication terminal of component, eventually due to communication
The lower power consumption at end and digital sensor, the lesser solar components of usable floor area can meet its power demands, area compared with
Then price is lower for small solar components, it is not easy to stolen.
Further, referring to FIG. 2, the photovoltaic module is specially Thinfilm solar cell assembly, the photovoltaic module
It is mounted on by mounting structure on the shell of the communication terminal or the shell 1 of the digital sensor, the mounting structure
It include: fixed plate 2, several vacuum chucks 3, adhesive layer, the first fixed rope 4, the 6, second lock of the second fixed rope 5, first lock
7, several vacuum chucks are evenly distributed on fixed back, and fixed plate is absorbed and fixed at the communication terminal by vacuum chuck
On the outer casing frontispiece of outer casing frontispiece or the digital sensor, fixed plate front is equipped with adhesive layer, thin-film solar cells group
Part 8 is fitted in fixed plate front by adhesive layer, and one end of first fixed rope one end and Thinfilm solar cell assembly connects, the
The one fixed rope other end and the first lock connect;The connection of the other end of second fixed rope one end and Thinfilm solar cell assembly,
The second fixed rope other end and the second lock connect;First lock is connect with the second snap fit, the first lock and the second lock
It is each attached on the shell rear surface of the communication terminal or the shell rear surface of the digital sensor.
Wherein, photovoltaic module is fitted in fixed plate, fixed plate is fixed on the shell of communication terminal and digital sensor
On, fixed plate is adsorbed on the shell by vacuum chuck, fix stably and easy to disassemble and recycle, then solid by 2
The engaging member for the collar-like that fixed rope and 2 locks are formed is arranged on the shell, i.e., is arranged photovoltaic module on the shell, fixed
It is firm, and, simple installation not damaged to shell.
Wherein, referring to FIG. 3, the photovoltaic module is specially Thinfilm solar cell assembly, using thin film solar electricity
Pond component is light to be easily installed, and it can fold and be bent and conveniently adapt to complicated use environment, the thin film solar electricity
Thin-film solar cell panel edge in the component of pond is fixed with connector 9, and connector surface is uniformly provided with the first screw hole, described logical
Believe and be uniformly provided with the second screw hole on the shell of terminal and the shell of the digital sensor, screw 10 is inserted into the first screw hole and second
Thinfilm solar cell assembly is fixed on the shell of the communication terminal or the shell of the digital sensor, is led in screw hole
Cross be threadedly coupled can consolidate photovoltaic module is fixed on the shell.
Wherein, the connector is made of rubber, can be bent using rubber, is easy to use, the connector appearance
Face is flute profile, and friction can be increased by being designed as flute profile, prevents connector from falling off.
Although the preferred embodiment of the utility model has been described, once a person skilled in the art knows basic
Creative concept, then additional changes and modifications may be made to these embodiments.It is wrapped so the following claims are intended to be interpreted as
It includes preferred embodiment and falls into all change and modification of the scope of the utility model.
Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art
Novel spirit and scope.If in this way, these modifications and variations of the present invention belong to the utility model claims and
Within the scope of its equivalent technologies, then the utility model is also intended to include these modifications and variations.
Claims (6)
1. a kind of field digital sensor monitors system, which is characterized in that field digital sensor monitoring system include: cloud,
Several communication terminals, several digital sensors;The communication terminal and the digital sensor include working condition and standby
State;Digital sensor is mounted on monitoring field, obtains field monitoring data, and digital sensor and communication terminal are wirelessly connected,
For field monitoring data to be sent to communication terminal in working condition and receive control instruction from communication terminal;Communication is eventually
End is wirelessly connected with cloud, is controlled for the monitoring data received to be sent to cloud and received from cloud in working condition
Instruction;The case surface of the communication terminal and the digital sensor is mounted on photovoltaic module, and the power supply of photovoltaic module is defeated
The power input connection of the power input of outlet and communication terminal, digital sensor.
2. a kind of field digital sensor according to claim 1 monitors system, which is characterized in that the digital sensor
Shell on the first controller is installed, first controller is connect with the digital sensor, and first controller is used
Switch between working condition and standby mode in controlling the digital sensor.
3. a kind of field digital sensor according to claim 1 monitors system, which is characterized in that the communication terminal
Second controller is installed, the second controller is connect with the communication terminal, and the second controller is used for institute on shell
Communication terminal is stated to switch between working condition and standby mode.
4. a kind of field digital sensor according to claim 1 monitors system, which is characterized in that the photovoltaic module tool
Body is Thinfilm solar cell assembly, and the photovoltaic module is mounted on shell or the institute of the communication terminal by mounting structure
State on the shell of digital sensor, the mounting structure include: fixed plate, several vacuum chucks, adhesive layer, the first fixed rope,
Second fixed rope, the first lock, the second lock, several vacuum chucks are evenly distributed on fixed back, and fixed plate passes through vacuum
Sucker suction is fixed on the outer casing frontispiece of the communication terminal or the outer casing frontispiece of the digital sensor, fixed plate front
Equipped with adhesive layer, Thinfilm solar cell assembly is fitted in fixed plate front, first fixed rope one end and film by adhesive layer
One end of solar cell module connects, and the first fixed rope other end and the first lock connect;Second fixed rope one end and film
The other end of solar cell module connects, and the second fixed rope other end and the second lock connect;First lock and the second lock
It is cooperatively connected, the first lock and second latches the shell rear surface or the digital sensor for being each attached to the communication terminal
On shell rear surface.
5. a kind of field digital sensor according to claim 1 monitors system, which is characterized in that the photovoltaic module tool
Body is Thinfilm solar cell assembly, and the thin-film solar cell panel edge in the Thinfilm solar cell assembly is fixed with company
Fitting, connector surface are uniformly provided with the first screw hole, on the shell of the shell of the communication terminal and the digital sensor
Even to be equipped with the second screw hole, screw is inserted into the first screw hole and the second screw hole Thinfilm solar cell assembly being fixed on the communication
On the shell of the shell of terminal or the digital sensor.
6. a kind of field digital sensor according to claim 5 monitors system, which is characterized in that the connector uses
Rubber is made, and the connector outer surface is flute profile.
Priority Applications (1)
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CN201920352468.5U CN209570193U (en) | 2019-03-19 | 2019-03-19 | A kind of field digital sensor monitoring system |
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CN201920352468.5U CN209570193U (en) | 2019-03-19 | 2019-03-19 | A kind of field digital sensor monitoring system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110198338A (en) * | 2019-03-19 | 2019-09-03 | 成都英智达科技有限公司 | A kind of field digital sensor monitoring system power dissipation control method |
CN111445683A (en) * | 2020-04-14 | 2020-07-24 | 广州番禺职业技术学院 | Remote transmission system and method for field observation data |
-
2019
- 2019-03-19 CN CN201920352468.5U patent/CN209570193U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110198338A (en) * | 2019-03-19 | 2019-09-03 | 成都英智达科技有限公司 | A kind of field digital sensor monitoring system power dissipation control method |
CN111445683A (en) * | 2020-04-14 | 2020-07-24 | 广州番禺职业技术学院 | Remote transmission system and method for field observation data |
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Effective date of registration: 20200514 Address after: No. 705, 7th floor, unit 1, building 1, No. 366, South Fifth Road, shanbanqiao, Chenghua District, Chengdu City, Sichuan Province Patentee after: CHENGDU TYTEST Co.,Ltd. Address before: 610000 Sichuan city of Chengdu province high tech Zone Yizhou Avenue North 777 No. 1 Building 1 unit 13 Building No. 1309 Patentee before: CHENGDU YINGZHIDA TECHNOLOGY Co.,Ltd. |