CN207396427U - A kind of environment of internet of things measure and control device - Google Patents
A kind of environment of internet of things measure and control device Download PDFInfo
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- CN207396427U CN207396427U CN201721007024.5U CN201721007024U CN207396427U CN 207396427 U CN207396427 U CN 207396427U CN 201721007024 U CN201721007024 U CN 201721007024U CN 207396427 U CN207396427 U CN 207396427U
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- environment
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- sensor group
- strut
- ground measurement
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Abstract
The utility model discloses a kind of environment of internet of things measure and control devices, belong to condition test-control field.The device includes:Embedding piece, connecting rod, strut, babinet and on-ground measurement device;Wherein, on-ground measurement device includes:Pillar, telescope motor and on-ground measurement sensor group carrier.The utility model can monitor ground environment and underground environment simultaneously by being configured upper environment measuring apparatus and underground environment measuring device, and the data of monitoring are comprehensive, and force data foundation has been provided for subsequent analysis;Strut can also be extracted to connecting rod simultaneously, ground environment and underground environment are monitored respectively, brought convenience to user, can meet the needs of different practical applications, it is highly practical;When wherein monitoring ground environment, realize that the measurement point in the short transverse of ground is adjusted by the pars contractilis of strut, convenient for measuring dynamic data, i.e., for measuring the environment of crop different growing stages, measurement is convenient.
Description
Technical field
The utility model is related to condition test-control field, more particularly to a kind of environment of internet of things measure and control device.
Background technology
In recent years, Internet of Things concept attracts people's attention, it has expanded the development space of the Internet, applications, advances emerging production
The development of industry technology and the technological innovation towards application field.Internet of Things is to realize the boosting that traditional agriculture changes to modern agriculture
Device and accelerator, have broad application prospects in agriculture field.Agriculture Internet of Things is by fusion calculation machine, communication, photoelectricity, electronics
The multiple technologies such as, control, agronomy, environmentology, realize multi-disciplinary intersection and fusion, and technology of Internet of things is applied to agricultural sets
It applies in production, the scientific and technological content and comprehensive competitive power of furnished equipments will be improved, promote industrialized agriculture production management level.As
Thing network sensing layer equipment, it usually needs realize the acquisition of site environment data, partly realize simple control function.
, it is necessary to carry out data collection by a variety of condition test-control sensors in agriculture Internet of Things.On the one hand
It needs to gather the grounds environmental datas such as temperature, humidity, CO2 concentration, the wind speed of crop growth environment, on the other hand needs to gather and make
The underground environments data such as humiture, moisture, pH value, oxygen dissolving value of object soil for growth.However, existing agricultural environment measure and control device
Ground environmental monitoring or underground environment monitoring are only considered in design, there is no consideration to being monitored simultaneously with underground environment on the ground,
Two sets of independent devices are just needed to ground environmental monitoring and underground environment monitoring respectively, inconvenience is brought to user, and supervises
The data of survey are not comprehensive, it is impossible to be provided with force data foundation for subsequent analysis.
In conclusion agricultural environment of internet of things measure and control device of the prior art, exists to ground environmental monitoring and underground
Environmental monitoring is measured respectively using two sets of independent devices, brings inconvenience to user, and the data monitored are not comprehensive, it is impossible to
The problem of force data foundation being provided with for subsequent analysis.
Utility model content
The utility model embodiment provides a kind of environment of internet of things measure and control device, can solve in the prior art, to exist pair
Ground environmental monitoring and underground environment monitoring are measured respectively using two sets of independent devices, are brought inconvenience to user, and are supervised
The data of survey are not comprehensive, it is impossible to the problem of being provided with force data foundation for subsequent analysis.
The utility model embodiment provides a kind of environment of internet of things measure and control device, including:Embedding piece, connecting rod, strut, case
Body and on-ground measurement device;
Multiple underground survey sensor groups are provided on the embedding piece of outer wall, filter is provided on the embedding piece of outer wall
Net, and the underground survey sensor group is between the embedding piece of outer wall and the strainer;
The connecting rod is arranged on the embedding piece of top, and is provided with graduation mark on the connecting rod outer wall;
The strut is plugged at the top of the connecting rod;The strut upper and lower part is straight-bar, and in the middle part of the strut
For telescopic rod;The first control panel and the second control panel are respectively arranged on the top straight-bar of the strut and lower part straight-bar;
The babinet is arranged at the top of the strut;The babinet is square structure;The top surface of the babinet and four sides
Opening is both provided on face, and rotation lid is both provided in each opening;The bottom of box is connected with tape by clamping plate;
The on-ground measurement device is located at the box house;The on-ground measurement device includes:Pillar, telescope motor and
On-ground measurement sensor group carrier;The bottom of the pillar is arranged on the bottom of the babinet, five telescope motor difference
It is arranged on four sides and top surface of the pillar, and the telescopic rod end of five telescope motors is both provided with and surveys on the ground
Quantity sensor group carrier is provided with on-ground measurement sensor group on the on-ground measurement sensor group carrier;
The underground survey sensor group is electrically connected with the first controller in second control panel, and described second
The multiple underground survey amount independent controls switch being electrically connected with first controller is provided on control panel;The ground is surveyed
Quantity sensor group and telescope motor are electrically connected with the second controller in first control panel, and first control plane
The five telescope motors control switch being electrically connected with the second controller is provided on plate and multiple on-ground measurement amounts are independently controlled
System switch.
It is preferred that the underground survey sensor group includes:Temperature Humidity Sensor, moisture transducer, pH values sensor and
Oxygen dissolving value sensor.
It is preferred that the opening is circle, the lid that rotates carries for pied geometry and the on-ground measurement sensor group
Body is ball structure.
It is preferred that the on-ground measurement sensor group includes:Temperature Humidity Sensor, CO2 concentration sensor and wind speed sensing
Device.
It is preferred that first controller and the second controller use PLC series monolithics.
In the utility model embodiment, a kind of environment of internet of things measure and control device is provided, compared with prior art, beneficial to effect
Fruit is as follows:
The utility model can monitor ground ring simultaneously by being configured upper environment measuring apparatus and underground environment measuring device
Border and underground environment, the data of monitoring are comprehensive, and force data foundation has been provided for subsequent analysis;It simultaneously can also be by strut
Connecting rod is extracted, ground environment and underground environment are monitored respectively, brought convenience to user, different reality can be met
The demand of application, it is highly practical.
The utility model realizes that the measurement point in the short transverse of ground is adjusted by the pars contractilis of strut, convenient for measurement dynamic
Data, i.e., for measuring the environment of crop different growing stages, measurement is convenient.
The utility model plays dust-proof anti-tampering work when not in use by the way that on-ground measurement sensor group is arranged in babinet
Data monitoring is carried out with babinet is pushed out by telescope motor during, use, and five can be measured simultaneously in each monitoring point
The data of group different directions, measurement data are comprehensively accurate.
The utility model measures embedding piece into the depth of underground and by soft by the graduation mark set in connecting rod
Ruler measures the height of on-ground measurement point, improves reliable strong data source for subsequent environmental analysis, makes the data of acquisition
More it is of practical significance.
The utility model can not only be distinguished by setting two independent control panels and multiple independent control buttons
Ground environment and underground environment are monitored, independent measurement can also be carried out to single environment parameter, obtain single environment amount data, meet
The demand of different practical applications.
Description of the drawings
Fig. 1 is a kind of environment of internet of things measure and control device structure diagram that the utility model embodiment provides;
Fig. 2 is that on-ground measurement apparatus structure shows in a kind of environment of internet of things measure and control device that the utility model embodiment provides
It is intended to.
Specific embodiment
Below in conjunction with the accompanying drawings, specific embodiment of the present utility model is described in detail, it should be appreciated that this reality
It is not restricted by specific implementation with new protection domain.
Fig. 1 is a kind of environment of internet of things measure and control device structure diagram that the utility model embodiment provides;Fig. 2 is this
On-ground measurement apparatus structure schematic diagram in a kind of environment of internet of things measure and control device that utility model embodiment provides.Such as Fig. 1 and Fig. 2
Shown, which includes:Embedding piece 1, connecting rod 2, strut 3, babinet 4 and on-ground measurement device.
Specifically, multiple underground survey sensor groups 11 are provided on embedding piece of 1 outer wall, are provided on embedding piece of 1 outer wall
Strainer 12, and underground survey sensor group 11 is between embedding piece of 1 outer wall and strainer 12;Connecting rod 2 is arranged on embedding piece 1 top
Portion, and it is provided with graduation mark 21 on 2 outer wall of connecting rod;The first control in underground survey sensor group 11 and the second control panel 32
Device electrical connection processed, and the multiple underground survey amounts being electrically connected with the first controller are provided on the second control panel 32 and are independently controlled
System switch.
Wherein, underground survey sensor group 11 includes:Temperature Humidity Sensor, moisture transducer, pH sensor and dissolved oxygen
It is worth sensor;Described embedding piece 1 is weightening block.
It should be noted that in use, embedding piece 1 is buried underground with underground survey sensor group 11 and strainer 12,
Measure underground environment parameter;The graduation mark 21 set in connecting rod 2 is used to measure embedding piece 1 depth into underground, is follow-up
Environmental analysis improve reliable strong data source.
Specifically, strut 3 is plugged in 2 top of connecting rod;3 upper and lower part of strut is straight-bar, and 3 middle part of strut is to stretch
Contracting bar;The first control panel 31 and the second control panel 32 are respectively arranged on the top straight-bar of strut 3 and lower part straight-bar;Case
Body 4 is arranged on 3 top of strut;Babinet 4 is square structure;Opening is both provided on the top surface of babinet 4 and four sides, and it is every
It is both provided in a opening and rotates lid 41;4 bottom of babinet is connected with tape 42 by clamping plate;On-ground measurement device is located at babinet 4
It is internal;On-ground measurement device includes:Pillar 51, telescope motor 52 and on-ground measurement sensor group carrier 53;The bottom of pillar 51
The bottom of babinet 4 is arranged on, five telescope motors 52 are separately positioned on four sides and top surface of pillar 51, and five flexible
The telescopic rod end of motor 52 is both provided with on-ground measurement sensor group carrier 53, is set on on-ground measurement sensor group carrier 53
There is on-ground measurement sensor group;On-ground measurement sensor group and telescope motor 52 are controlled with second in the first control panel 31
Device be electrically connected, and be provided on the first control panel 31 be electrically connected with second controller five telescope motors control switch and it is more
A on-ground measurement amount independent control switch.
Wherein, it is open as circle, rotates that lid 41 is pied geometry and on-ground measurement sensor group carrier 53 is ball
Structure;On-ground measurement sensor group includes:Temperature Humidity Sensor, CO2 concentration sensor and air velocity transducer.
The first controller and second controller in the utility model use PLC series monolithics.
It should be noted that the measurement point that the pars contractilis of strut 3 is used to implement in the short transverse of ground is adjusted, convenient for measurement
Dynamic data, measurement are convenient.On-ground measurement sensor group is arranged in babinet 4, play the role of when not in use it is dust-proof anti-tampering,
Babinet 4 is pushed out by telescope motor 52 during use and carries out data monitoring, and five can be measured simultaneously in each monitoring point
The data of group different directions, measurement data are comprehensively accurate;The height of on-ground measurement point is further measured by tape, makes acquisition
Data are more of practical significance.
In conclusion the utility model can monitor ground environment and underground environment simultaneously, it can also be by 3 company of extraction of strut
Extension bar 2 is respectively monitored ground environment and underground environment;The utility model is by setting two independent control planes simultaneously
Plate and multiple independent control buttons, can not only monitor ground environment and underground environment respectively, can also be to single environment parameter
Independent measurement is carried out, meets the needs of different practical applications.
Disclosed above is only specific embodiment of the utility model, and still, the utility model embodiment is not limited to
This, the changes that any person skilled in the art can think of should all fall into the scope of protection of the utility model.
Claims (5)
1. a kind of environment of internet of things measure and control device, which is characterized in that including:Embedding piece (1), connecting rod (2), strut (3), babinet
(4) and on-ground measurement device;
Multiple underground survey sensor groups (11) are provided on described embedding piece of (1) outer wall, are set on described embedding piece of (1) outer wall
There is strainer (12), and the underground survey sensor group (11) is between embedding piece of (1) outer wall and the strainer (12);
The connecting rod (2) is arranged at the top of described embedding piece (1), and is provided with graduation mark on the connecting rod (2) outer wall
(21);
The strut (3) is plugged at the top of the connecting rod (2);Strut (3) upper and lower part is straight-bar, and the strut
(3) middle part is telescopic rod;Be respectively arranged on the top straight-bar of the strut (3) and lower part straight-bar the first control panel (31) and
Second control panel (32);
The babinet (4) is arranged at the top of the strut (3);The babinet (4) is square structure;The top surface of the babinet (4)
Be both provided with opening on four sides, and be both provided with rotation lid (41) in each opening;Babinet (4) bottom passes through folder
Plate is connected with tape (42);
It is internal that the on-ground measurement device is located at the babinet (4);The on-ground measurement device includes:Pillar (51), flexible electricity
Machine (52) and on-ground measurement sensor group carrier (53);The bottom of the pillar (51) is arranged on the bottom of the babinet (4), and five
A telescope motor (52) is separately positioned on four sides and top surface of the pillar (51), and five telescope motors
(52) telescopic rod end is both provided with on-ground measurement sensor group carrier (53), the on-ground measurement sensor group carrier (53)
On be provided with on-ground measurement sensor group;
The underground survey sensor group (11) is electrically connected with the first controller in second control panel (32), and described
The multiple underground survey amount independent controls switch being electrically connected with first controller is provided on second control panel (32);Institute
On-ground measurement sensor group and telescope motor (52) is stated to be electrically connected with the second controller in first control panel (31),
And be provided on first control panel (31) be electrically connected with the second controller five telescope motors control switch and
Multiple on-ground measurement amount independent control switches.
2. environment of internet of things measure and control device as described in claim 1, which is characterized in that the underground survey sensor group (11)
Including:Temperature Humidity Sensor, moisture transducer, pH sensor and oxygen dissolving value sensor.
3. environment of internet of things measure and control device as described in claim 1, which is characterized in that the opening is circular, the rotation
Lid (41) is pied geometry and the on-ground measurement sensor group carrier (53) is ball structure.
4. environment of internet of things measure and control device as described in claim 1, which is characterized in that the on-ground measurement sensor group bag
It includes:Temperature Humidity Sensor, CO2 concentration sensor and air velocity transducer.
5. environment of internet of things measure and control device as described in claim 1, which is characterized in that first controller and described second
Controller uses PLC series monolithics.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721007024.5U CN207396427U (en) | 2017-08-11 | 2017-08-11 | A kind of environment of internet of things measure and control device |
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CN201721007024.5U CN207396427U (en) | 2017-08-11 | 2017-08-11 | A kind of environment of internet of things measure and control device |
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Publication Number | Publication Date |
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CN207396427U true CN207396427U (en) | 2018-05-22 |
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CN201721007024.5U Expired - Fee Related CN207396427U (en) | 2017-08-11 | 2017-08-11 | A kind of environment of internet of things measure and control device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108844587A (en) * | 2018-08-31 | 2018-11-20 | 深圳市心版图科技有限公司 | A kind of Agricultural Information acquisition device with modern information technologies |
CN112710338A (en) * | 2021-01-22 | 2021-04-27 | 安徽农道智能科技有限公司 | Portable agricultural small weather gradient observation rod and control method thereof |
-
2017
- 2017-08-11 CN CN201721007024.5U patent/CN207396427U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108844587A (en) * | 2018-08-31 | 2018-11-20 | 深圳市心版图科技有限公司 | A kind of Agricultural Information acquisition device with modern information technologies |
CN112710338A (en) * | 2021-01-22 | 2021-04-27 | 安徽农道智能科技有限公司 | Portable agricultural small weather gradient observation rod and control method thereof |
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GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180522 Termination date: 20180811 |