CN209484220U - Environmental monitoring gateway bracket and environmental monitoring system - Google Patents
Environmental monitoring gateway bracket and environmental monitoring system Download PDFInfo
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- CN209484220U CN209484220U CN201920153471.4U CN201920153471U CN209484220U CN 209484220 U CN209484220 U CN 209484220U CN 201920153471 U CN201920153471 U CN 201920153471U CN 209484220 U CN209484220 U CN 209484220U
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- environmental monitoring
- fixed
- upper shell
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Abstract
The utility model discloses a kind of environmental monitoring gateway bracket and environmental monitoring system, wherein environmental monitoring gateway bracket includes second base, the second vertical bar and the second fixed frame;Second vertical bar includes the second upper shell and the second lower shell, wherein the lower part of the second lower shell is fixed in second base, and the second upper shell is set on the second lower shell and can be up and down relative to the second lower shell;Second fixed frame is fixed on the outer wall of the second upper shell.The utility model has the beneficial effects that environmental monitoring gateway bracket includes the second upper shell and the second lower shell, second upper shell can be up and down relative to the second lower shell, by adjusting the relative position between the second upper shell and the second lower shell, the height of adjustable second vertical bar, so that environmental monitoring gateway bracket adapts to the crops of different topography environment and different height.
Description
Technical field
The utility model relates to crops to monitor field, and in particular to a kind of environmental monitoring gateway bracket and environmental monitoring system
System.
Background technique
Long-term acquisition and monitoring agriculture are needed for the growth conditions of control crops for the crops of large area plantation
The various informations parameter of crop growth environment.In the various informations parameter of automatic collection and monitoring crop growth environment, need
To carry out stationary monitoring device using bracket, but there are no the brackets that can flexibly use in the prior art for stationary monitoring dress
It sets.
Above content is only used for auxiliary and understands the technical solution of the utility model, does not represent and recognizes that above content is existing
Technology.
Utility model content
Based on the deficiencies of the prior art, the utility model provides a kind of environmental monitoring gateway bracket and environmental monitoring system.
The utility model proposes a kind of environmental monitoring gateway brackets, comprising:
Second base;
Second vertical bar, including the second upper shell and the second lower shell, wherein the lower part of the second lower shell is fixed on described
On two pedestals, second upper shell is set on second lower shell and can be living up and down relative to second lower shell
It is dynamic;
Second fixed frame is fixed on the outer wall of second upper shell.
Further, the second fixture block, the outer wall of second lower shell are convexly equipped on the inner wall of second upper shell lower part
Convex to be provided with the second supporting walls for being used to support second fixture block, second supporting walls are equipped with for second fixture block
By the second notch.
Further, there are two second supporting walls, the top and middle part of second lower shell are respectively arranged on.
Further, second fixed frame includes:
Second fixing seat is fixed on the outer wall of second upper shell;
Second shaft is rotatably arranged in second fixing seat;
Second rotating bar is fixed in second shaft and rotates synchronously with second shaft;
Second fixed plate is fixed on second rotating bar;
Second locating piece is provided with multiple second location holes on second upper shell, and second rotating bar is provided with
Second perforation, wherein second locating piece, will be described for sequentially passing through second perforation, the second location hole
Second rotating bar is fixed.
Further, second rotating bar includes:
Second segmental arc, is fixed on second shaft in the middle part of second segmental arc, and one end be fixedly connected it is described
Second fixed plate;
Second extended segment, the other end of second segmental arc connect second extended segment, and second extended segment
One end extend downwardly, wherein it is described second perforation be set to second extended segment.
Further, the environmental monitoring gateway bracket further includes the second fixation kit, and second fixation kit includes the
Two bolts and the second nut, second bolt head passes through second upper shell, after second lower shell with described the
The connection of two nut threads.
The utility model also proposes a kind of environmental monitoring system, including environmental monitoring gateway branch described in above-mentioned any one
Frame.
The utility model has the beneficial effects that environmental monitoring gateway bracket include the second upper shell and the second lower shell, second
Upper shell can be up and down relative to the second lower shell, by adjusting the opposite position between the second upper shell and the second lower shell
It sets, the height of adjustable second vertical bar, so that environmental monitoring gateway bracket adapts to the agriculture of different topography environment and different height
Crop.
Detailed description of the invention
Fig. 1 is a kind of circuit block diagram of environment monitoring node device provided by the embodiment of the utility model;
Fig. 2 a is a kind of structural schematic diagram of environment monitoring node bracket provided by the embodiment of the utility model;
Fig. 2 b is the enlarged drawing of part A in Fig. 2 a;
Fig. 3 a is a kind of another structural schematic diagram of environment monitoring node bracket provided by the embodiment of the utility model;
Fig. 3 b is the enlarged drawing of part B in Fig. 3 a;
Fig. 4 is a kind of structural schematic diagram of environment monitoring node device provided by the embodiment of the utility model;
Fig. 5 is a kind of physical circuit of the LoRa radio frequency chip of model SX1278 provided by the embodiment of the utility model
Figure;
Fig. 6 a- Fig. 6 g is a kind of the specific of the microprocessor of model STM32L151R provided by the embodiment of the utility model
Circuit diagram;
Fig. 7 is a kind of circuit block diagram of environmental monitoring gateway apparatus provided by the embodiment of the utility model;
Fig. 8 a is a kind of structural schematic diagram of environmental monitoring gateway bracket provided by the embodiment of the utility model;
Fig. 8 b is the enlarged drawing of C portion in Fig. 8 a;
Fig. 9 a is a kind of another structural schematic diagram of environmental monitoring gateway bracket provided by the embodiment of the utility model;
Fig. 9 b is the enlarged drawing of the part D in Fig. 9 a;
Figure 10 is a kind of structural schematic diagram of environmental monitoring gateway apparatus provided by the embodiment of the utility model.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise
Under every other embodiment obtained, fall within the protection scope of the utility model.
It is to be appreciated that in the utility model embodiment institute it is directional instruction (such as up, down, left, right, before and after, level,
It is vertical etc.) it is only used for the relative positional relationship explained under a certain particular pose (as shown in the picture) between each component, movement feelings
Condition etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly, and " connection " can be with
It is to be directly connected to, is also possible to be indirectly connected with, " setting ", " being set to ", " being set to " can be and be directly arranged in, can also be with
It is arranged between being.
In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and cannot manage
Solution is its relative importance of indication or suggestion or the quantity for implicitly indicating indicated technical characteristic.Define as a result, " the
One ", the feature of " second " can explicitly or implicitly include at least one of the features.In addition, the skill between each embodiment
Art scheme can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when technical solution
It will be understood that the combination of this technical solution is not present in conjunction with there is conflicting or cannot achieve when, also not in the utility model
It is required that protection scope within.
Referring to Fig. 1 to Figure 10, an a kind of embodiment of environmental monitoring system of the utility model is shown, in the present embodiment
In, the environmental monitoring system is for monitoring crop growth environment comprising terminal device, environmental monitoring gateway apparatus and ring
Border monitoring node device, wherein environment monitoring node device is used to acquire the information parameter of crop growth environment and is sent to
The information parameter of crop growth environment is sent to terminal device again by environmental monitoring gateway apparatus, environmental monitoring gateway apparatus,
So that user checks.The control instruction that user is issued by terminal device is transmitted to environmental monitoring section through environmental monitoring gateway apparatus
Point device, to control the information parameter of environment monitoring node device acquisition crop growth environment.
In the present embodiment, according to the scale of crop planting, environment monitoring node device can be evenly distributed on to be multiple
Different location, to acquire the information parameter of crop growth environment.Environmental monitoring gateway apparatus may be it is multiple, so as to more
The information parameter of crop growth environment is received well.In the present embodiment, terminal device can set for computers such as computer, mobile phones
It is standby.
Referring again to Fig. 1 to Fig. 5, Fig. 6 a to Fig. 6 g, in an alternative embodiment, such as in the present embodiment, environment prison
Surveying node apparatus includes the first LoRa radio frequency chip 31, first environment sensor 80 and first microprocessor 32, and the first LoRa is penetrated
First output end of the output end electrical connection first microprocessor 32 of frequency chip 31, the output end of first environment sensor 80 are electrically connected
Connect the second output terminal of first microprocessor 32.
In the present embodiment, the first LoRa radio frequency chip 31 is a kind of wireless communications chips for receiving and sending messages, and has and passes
The features such as defeated distance is remote, transmitting is low in energy consumption, when large area plants crops, environment monitoring node device is based on the first LoRa and penetrates
The characteristics of frequency chip 31, can transmit the information parameter of crop growth environment in several kilometers even more than ten kilometers and receive environment
Monitor the control instruction of the terminal device of gateway apparatus forwarding.
In the present embodiment, environment monitoring node device can automatic collection crop growth environment information parameter, be not necessarily to people
Work acquisition, greatly reduces planting cost.
In an alternative embodiment, such as in the present embodiment, first microprocessor 32 acquires first environment sensor 80
Crop growth environment information parameter be packaged after, by the first LoRa radio frequency chip 31 be sent to environmental monitoring gateway dress
It sets, terminal device is sent to by environmental monitoring gateway apparatus.
In an alternative embodiment, such as in the present embodiment, the model STM32L151R of first microprocessor 32.Such as figure
It is the physical circuit figure of the first microprocessor 32 of STM32L151R model, due to single physical circuit figure shown in 6a to Fig. 6 g
It is larger, therefore the physical circuit figure of the first microprocessor of STM32L151R model 32 is divided into seven width circuit diagrams.
In an alternative embodiment, such as in the present embodiment, the model SX1278 of the first LoRa radio frequency chip 31.Such as figure
It is the physical circuit figure of the first LoRa radio frequency chip 31 of SX1278 model shown in 5.
In an alternative embodiment, such as in the present embodiment, environment monitoring node device further includes the first storage medium 34,
In an alternative embodiment, such as in the present embodiment, the first storage medium 34 is solid state hard disk, in an alternative embodiment, example
In the present embodiment, the model TC58NCF602GAT of solid state hard disk.
In an alternative embodiment, such as in the present embodiment, environment monitoring node device further includes environment monitoring node branch
Frame, the first LoRa radio frequency chip 31 and first microprocessor 32 are set on environment monitoring node bracket, preferably to protect the
One LoRa radio frequency chip 31 and first microprocessor 32.
In an alternative embodiment, such as in the present embodiment, environment monitoring node device further includes the first power supply unit 33,
First power supply unit 33 is set on environment monitoring node bracket and electrical connection first microprocessor 32, to give first microprocessor
32, the devices such as the first LoRa radio frequency chip 31 and first environment sensor 80 are powered.
In an alternative embodiment, such as in the present embodiment, the first power supply unit 33 includes the first battery.
In an alternative embodiment, such as in the present embodiment, the first power supply unit 33 further includes the first solar panel,
First solar panel is electrically connected the first battery to charge to the first battery, and the first battery is electrically connected the first micro process
Device 32 is to wait devices power supply to first microprocessor 32.
In an alternative embodiment, such as in the present embodiment, environment monitoring node device further includes the first display screen 85, the
One display screen 85 is set on environment monitoring node bracket and electrical connection first microprocessor 32, in first microprocessor 32
The information parameter of the lower display crop growth environment of control.
In an alternative embodiment, such as in the present embodiment, the first environment sensor 80 is sensed including the first wind direction
Device, the first air velocity transducer, the first optical sensor, the first noise transducer, the first air temperature sensor, the first air are wet
Spend sensor, the first carbon dioxide sensor, the first sensor of dust concentration, the first soil pH sensor, first soil moisture
One of sensor, first soil humidity sensor are a variety of.Preferably, in the present embodiment, first environment sensor 80 is wrapped
Include the first optical sensor 83, the first wind transducer 81 and the first air velocity transducer 82, the model of the first optical sensor 83
For HA2003, the model GZYK9X, the model FS-V2-30 of the first air velocity transducer 82 of the first wind transducer 81.
Referring again to Fig. 2 a, Fig. 2 b, Fig. 3 a, Fig. 3 b and Fig. 4, in an alternative embodiment, such as in the present embodiment, ring
Border monitoring node bracket includes first base 40, the first vertical bar 10, the first electronic box 30, the first fixed frame and first crossbar 20;The
One vertical bar 10 includes the first upper shell 11 and the first lower shell 12, and 12 lower part of the first lower shell is fixed in first base 40, the
One upper shell 11 is set on the first lower shell 12 and can be up and down relative to the first lower shell 12;First electronic box 30 is fixed on
On the outer wall of first upper shell 11;First fixed frame is fixed on the outer wall of the first upper shell 11;First crossbar 20 is fixed on
On one upper shell 11.
In the present embodiment, environment monitoring node bracket includes the first upper shell 11 and the first lower shell 12, the first upper shell
11 can be up and down relative to the first lower shell 12, by adjusting the opposite position between the first upper shell 11 and the first lower shell 12
It sets, the height of adjustable first vertical bar 10, so that environment monitoring node bracket adapts to different topography environment and different height
Crops.
In an alternative embodiment, such as in the present embodiment, the first LoRa radio frequency chip 31 and first microprocessor 32 are set
In in the first electronic box 30 preferably to protect the first LoRa radio frequency chip 31 and first microprocessor 32.
In an alternative embodiment, such as in the present embodiment, the first upper shell 11 packs into the first lower shell 12 by lower part,
First crossbar 20 is fixed on the top of the first upper shell 11 and vertical with the first upper shell 11, wherein the first optical sensor 83
Induction component, the first wind transducer 81 induction component and the first air velocity transducer 82 induction component be set to first crossbar
On 20, preferably to acquire the information parameter of crop growth environment.
In an alternative embodiment, such as in the present embodiment, the first card is convexly equipped on the inner wall of 11 lower part of the first upper shell
Block 112, the outer wall of the first lower shell 12 is convex to be provided with the first supporting walls 70, and the first supporting walls 70 are equipped with for the first fixture block
112 the first notches 72 passed through.When needing to increase the first vertical bar 10, the first upper shell 11 is lifted, passes through the first fixture block 112
Then first notch 72 rotates the first upper shell 11, so that the first fixture block 112 is staggered with the first notch 72, finally put down on first
Cylinder 11 makes the first fixture block 112 be supported on the upper surface of the first supporting walls 70, and thus the first vertical bar 10 can be turned up.It needs to drop
When low first vertical bar 10, the first upper shell 11 is lifted to and rotated the first upper shell 11, makes the first notch 72 and the first fixture block 112
It is corresponding, the first upper shell 11 is then transferred, makes the first fixture block 112 by the first notch 72, and make under the first upper shell 11
Portion is supported in first base 40, thus can turn down the first vertical bar 10.
In an alternative embodiment, such as in the present embodiment, 70 upper surface of the first supporting walls is convexly equipped with the first limited wall 71,
First limited wall 71 is located at the two sides of the first notch 72, for limiting the first fixture block 112, prevents 112 non-artificial turns of the first fixture block
It moves to 72 top of the first notch and passes through from the first notch 72.
In an alternative embodiment, such as in the present embodiment, there are two the first fixture blocks 112, corresponding, the first notch 72
It is two, so that the first upper shell 11 is more firm.In other embodiments, the first fixture block 112 can also be multiple, corresponding,
First notch 72 is also multiple.
In an alternative embodiment, such as in the present embodiment, there are two the first supporting walls 70, is respectively arranged on the first lower shell
On the outer wall at 12 tops and middle part, so that the first vertical bar 10 can there are three types of optional height.In other embodiments, first
Support wall 70 can also have it is multiple so that the first vertical bar 10 can have more optional height.
In an alternative embodiment, such as in the present embodiment, the first fixed frame includes the first fixing seat 52, first rotating shaft
53, the first rotating bar 56, the first fixed plate 51 and the first locating piece 57;First fixing seat 52 is fixed on the outer of the first upper shell 11
On wall;First rotating shaft 53 is rotatably arranged in the first fixing seat 52;First rotating bar 56 is fixed in first rotating shaft 53 and with
One shaft 53 rotates synchronously;First fixed plate 51 is fixed on the first rotating bar 56;Multiple first are provided on first upper shell 11
Location hole 111, the first rotating bar 56 are provided with the first perforation, wherein the first locating piece 57 is for sequentially passing through the first perforation, the
A positioning hole 111, the first rotating bar 56 is fixed.In the present embodiment, the first fixed plate 51 is used to fix the first display screen 85,
After first display screen 85 is fixed on the first fixed plate 51, the plate face of the display surface of the first display screen 85 and the first fixed plate 51 is parallel
Or it is substantially parallel, by rotating the first rotating bar 56 manually, the angles of display of the display surface of adjustable first display screen 85, with
Different display environments is adapted to, after the completion of angles of display adjustment, passes through the perforation of the first locating piece 57, first and first positioning hole
111, which cooperate, fixes the first rotating bar 56, when needing to adjust angles of display again, from the first perforation and first positioning hole
The first rotating bar 56 is pulled out in 111 can be rotated the first rotating bar 56.
In an alternative embodiment, such as in the present embodiment, the first rotating bar 56 includes that the first segmental arc 54 and first prolongs
Stretch section 55;First rotating shaft 53 is fixed in the middle part of first segmental arc 54, and one end is fixedly connected with the first fixed plate 51;First segmental arc
54 other end connects the first extended segment 55, and one end of the first extended segment 55 extends downward such that user is more convenient and adjusts display
Angle, wherein the first perforation is set under the first extended segment 55, when multiple first positioning holes 111 are moved along the first extended segment 55
Arranged in tracks.
In an alternative embodiment, such as in the present embodiment, environment monitoring node bracket further includes the first fixation kit, the
One fixation kit includes the first bolt 61 and the first nut 62, and 61 head of the first bolt passes through the lower cylinder of the first upper shell 11, first
It is threadedly coupled after body 12 with the first nut 62, the first upper shell 11 and the first lower shell 12 is fixed.
Referring again to Fig. 5, Fig. 6 a to Fig. 6 g, Fig. 7 to Figure 10, in an alternative embodiment, such as in the present embodiment, ring
It includes the 2nd LoRa radio frequency chip 301, network interface module 305 and the second microprocessor 302 that border, which monitors gateway apparatus, and the 2nd LoRa is penetrated
The output end of frequency chip 301 is electrically connected the first output end of the second microprocessor 302, the output end electrical connection of network interface module 305
The second output terminal of second microprocessor 302.
In the present embodiment, environmental monitoring gateway apparatus can receive environment by the 2nd LoRa radio frequency chip 301 at a distance
The information parameter for the crop growth environment that monitoring node device is sent, and pass through network interface module 305 for crop growth environment
Information parameter be sent to terminal device, can also by the 2nd LoRa radio frequency chip 301 to environment monitoring node device forward control
System instruction.
In an alternative embodiment, such as in the present embodiment, the information parameter received is packaged by the second microprocessor 302
Afterwards, it is sent to terminal device, and the control instruction that terminal device is sent is transmitted to environment by the 2nd LoRa radio frequency chip 301
Monitoring node device.
In an alternative embodiment, such as in the present embodiment, the model STM32L151R of the second microprocessor 302.Such as
It is the physical circuit figure of the second microprocessor 302 of STM32L151R model, due to single physical circuit shown in Fig. 6 a to Fig. 6 g
Scheme larger, therefore the physical circuit figure of the second microprocessor 302 of STM32L151R model is divided into seven width circuit diagrams.
In an alternative embodiment, such as in the present embodiment, the model SX1278 of the 2nd LoRa radio frequency chip 301.Such as
It is the physical circuit figure of the 2nd LoRa radio frequency chip 301 of SX1278 model shown in Fig. 5.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes the second storage medium
304, in an alternative embodiment, such as in the present embodiment, the second storage medium 304 is solid state hard disk, in an alternative embodiment
In, such as in the present embodiment, the model TC58NCF602GAT of solid state hard disk.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes environmental monitoring gateway branch
Frame, the 2nd LoRa radio frequency chip 301, network interface module 305 and the second microprocessor 302 are set on environmental monitoring gateway bracket, with
Just the 2nd LoRa radio frequency chip 301, network interface module 305 and the second microprocessor 302 are preferably protected.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes the second power supply unit
303, the second power supply unit 303 is set on environmental monitoring gateway bracket and the second microprocessor 302 of electrical connection, to give second micro- place
Manage the devices power supply such as device 302 and the 2nd LoRa radio frequency chip 301.
In an alternative embodiment, such as in the present embodiment, the second power supply unit 303 includes the second battery.
In an alternative embodiment, such as in the present embodiment, the second power supply unit 303 further includes the second solar battery
Plate, the second solar panel are electrically connected the second battery to charge to the second battery, and the electrical connection second of the second battery is micro-
Processor 302 is to wait devices power supply to the second microprocessor 302.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes second display screen 805,
Second display screen 805 is set on environmental monitoring gateway bracket, for showing the information parameter of crop growth environment.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes camera 804, camera shooting
First 804 are set on environmental monitoring gateway bracket, for acquiring the image information of crops, and monitor the environment around crops.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes wireless router 806,
Network interface module 305, camera 804 and second display screen 805 are electrically connected wireless router 806 and connect to communicate with terminal device
It connects, camera 804 and second display screen 805 work under the control of terminal device.In an alternative embodiment, such as this
In embodiment, 806 grafting Internet of Things card of wireless router, to connect network.
In an alternative embodiment, such as in the present embodiment, environmental monitoring gateway apparatus further includes second environment sensor
800, second environment sensor 800 is made an uproar including the second wind transducer, the second air velocity transducer, the second optical sensor, second
Sonic transducer, the second air temperature sensor, the second air humidity sensor, the second carbon dioxide sensor, the second dust are dense
Spend one of sensor, the second soil pH sensor, the second soil temperature sensor, second soil humidity sensor or more
Kind.Preferably, in the present embodiment, second environment sensor 800 includes the second optical sensor 803, the second wind transducer 801
With the second air velocity transducer 802, the model HA2003 of the second optical sensor 803, the model of the second wind transducer 801
GZYK9X, the model FS-V2-30 of the second air velocity transducer 802.Second environment sensor is arranged in environmental monitoring gateway apparatus
After 800, it can not only be connected by network interface module 305 with terminal device, the function of environment monitoring node device can also be had both,
Use environmental monitoring gateway apparatus more flexible.
Referring again to Fig. 8 a, Fig. 8 b, Fig. 9 a, Fig. 9 b and Figure 10, in an alternative embodiment, such as in the present embodiment,
Environment monitoring node bracket includes second base 400, the second vertical bar 100, the second electronic box 300, the second fixed frame and second crossbar
200;Second vertical bar 100 includes the second upper shell 101 and the second lower shell 102, and 102 lower part of the second lower shell is fixed on the second bottom
On seat 400, the second upper shell 101 is set on the second lower shell 102 and can be up and down relative to the second lower shell 102;The
Two electronic boxs 300 are fixed on the outer wall of the second upper shell 101;Second fixed frame is fixed on the outer wall of the second upper shell 101;The
Two cross bars 200 are fixed on the second upper shell 101.
In the present embodiment, environment monitoring node bracket includes the second upper shell 101 and the second lower shell 102, cylinder on second
Body 101 can be up and down relative to the second lower shell 102, by adjusting between the second upper shell 101 and the second lower shell 102
Relative position, the height of adjustable second vertical bar 100, so that environment monitoring node bracket adapts to different topography environment and difference
The crops of height.
In an alternative embodiment, such as in the present embodiment, the 2nd LoRa radio frequency chip 301 and the second microprocessor 302
Preferably to protect the 2nd LoRa radio frequency chip 301 and the second microprocessor 302 in the second electronic box 300.
In an alternative embodiment, such as in the present embodiment, the second upper shell 101 packs into the second lower shell by lower part
102, second crossbar 200 is fixed on the top of the second upper shell 101 and vertical with the second upper shell 101, wherein the second illumination passes
The induction component of sensor, the induction component of the second wind transducer, the induction component of the second air velocity transducer and camera 804 are set
In in second crossbar 200, preferably to acquire the information parameter of crop growth environment.
In an alternative embodiment, such as in the present embodiment, the second card is convexly equipped on the inner wall of 101 lower part of the second upper shell
Block 1102, the outer wall of the second lower shell 102 is convex to be provided with the second supporting walls 700, and the second supporting walls 700 are equipped with for the second card
The second notch 702 that block 1102 passes through.When needing to increase the second vertical bar 100, the second upper shell 101 is lifted, the second fixture block is made
1102, by the second notch 702, then rotate the second upper shell 101, so that the second fixture block 1102 is staggered with the second notch 702, most
After put down the second upper shell 101, so that the second fixture block 1102 is supported on the upper surface of the second supporting walls 700, thus second can be erected
Bar 100 is turned up.When needing to reduce the second vertical bar 100, the second upper shell 101 is lifted to and rotated the second upper shell 101, makes second
Notch 702 and the second fixture block 1102 are corresponding, then transfer the second upper shell 101, and the second fixture block 1102 is made to pass through the second notch
702, and make the lower support of the second upper shell 101 in second base 400, thus the second vertical bar 100 can be turned down.
In an alternative embodiment, such as in the present embodiment, 700 upper surface of the second supporting walls is convexly equipped with the second limited wall
701, the second limited wall 701 is located at the two sides of the second notch 702, for limiting the second fixture block 1102, prevents the second fixture block 1102
It is non-artificial to turn to 702 top of the second notch and pass through from the second notch 702.
In an alternative embodiment, such as in the present embodiment, there are two the second fixture blocks 1102, corresponding, the second notch 702
It also is two, so that the second upper shell 101 is more firm.In other embodiments, the second fixture block 1102 can also be multiple, corresponding
, the second notch 702 is also multiple.
In an alternative embodiment, such as in the present embodiment, there are two the second supporting walls 700, is respectively arranged on the second lower cylinder
On the outer wall at 102 top of body and middle part, so that the second vertical bar 100 can there are three types of optional height.In other embodiments,
Two supporting walls 700 can also have it is multiple so that the second vertical bar 100 can have more optional height.
In an alternative embodiment, such as in the present embodiment, the second fixed frame includes the second fixing seat 502, the second shaft
503, the second rotating bar 506, the second fixed plate 501 and the second locating piece 507;Second fixing seat 502 is fixed on the second upper shell
On 101 outer wall;Second shaft 503 is rotatably arranged in the second fixing seat 502;Second rotating bar 506 is fixed on the second shaft
It is rotated synchronously on 503 and with the second shaft 503;Second fixed plate 501 is fixed on the second rotating bar 506;On second upper shell 101
Be provided with multiple second location holes 1101, the second rotating bar 506 is provided with the second perforation, wherein the second locating piece 507 be used for according to
Secondary the second perforation, the second location hole 1101 of passing through is with fixed by the second rotating bar 506.In the present embodiment, the second fixed plate 501 is used
In fixed second display screen 805, after second display screen 805 is fixed on the second fixed plate 501, the display surface of second display screen 805
Parallel or substantially parallel with the plate face of the second fixed plate 501, by rotating the second rotating bar 506 manually, adjustable second is aobvious
The angles of display of the display surface of display screen 805, it is fixed by second after the completion of angles of display adjustment to adapt to different display environments
The position perforation of part 507, second and second location hole 1101 cooperate and fix the second rotating bar 506, need to adjust display again
When angle, pulling out the second rotating bar 506 from the second perforation and second location hole 1101 can be rotated the second rotating bar 506.
In an alternative embodiment, such as in the present embodiment, the second rotating bar 506 includes the second segmental arc 504 and second
Extended segment 505;The second shaft 503 is fixed in the middle part of second segmental arc 504, and one end is fixedly connected with the second fixed plate 501;Second
The other end of segmental arc 504 connects the second extended segment 505, and one end of the second extended segment 505 extends downward such that user is more square
Just angles of display is adjusted, wherein the second perforation is set under the second extended segment 505, and multiple second location holes 1101 extend along second
Arranged in tracks when section 505 moves.
In an alternative embodiment, such as in the present embodiment, environment monitoring node bracket further includes the second fixation kit, the
Two fixation kits include the second bolt 601 and the second nut 602, and 601 head of the second bolt passes through the second upper shell 101, second
It is threadedly coupled after lower shell 102 with the second nut 602, the second upper shell 101 and the second lower shell 102 is fixed to each other.
The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model,
Equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, is directly or indirectly transported
Used in other related technical areas, it is also included in the patent protection scope of the utility model.
Claims (7)
1. a kind of environmental monitoring gateway bracket characterized by comprising
Second base;
Second vertical bar, including the second upper shell and the second lower shell, wherein the lower part of the second lower shell is fixed on second bottom
On seat, second upper shell is set on second lower shell and can be up and down relative to second lower shell;
Second fixed frame is fixed on the outer wall of second upper shell.
2. environmental monitoring gateway bracket as described in claim 1, which is characterized in that the inner wall of second upper shell lower part is convex
Equipped with the second fixture block, the outer wall of second lower shell is convex to be provided with the second supporting walls for being used to support second fixture block,
Second supporting walls are equipped with the second notch passed through for second fixture block.
3. environmental monitoring gateway bracket as claimed in claim 2, which is characterized in that there are two second supporting walls, sets respectively
In the top and middle part of second lower shell.
4. environmental monitoring gateway bracket as described in claim 1, which is characterized in that second fixed frame includes:
Second fixing seat is fixed on the outer wall of second upper shell;
Second shaft is rotatably arranged in second fixing seat;
Second rotating bar is fixed in second shaft and rotates synchronously with second shaft;
Second fixed plate is fixed on second rotating bar;
Second locating piece is provided with multiple second location holes on second upper shell, and second rotating bar is provided with second
Perforation, wherein second locating piece is for sequentially passing through second perforation, the second location hole, by described second
Rotating bar is fixed.
5. environmental monitoring gateway bracket as claimed in claim 4, which is characterized in that second rotating bar includes:
Second segmental arc is fixed on second shaft in the middle part of second segmental arc, and one end is fixedly connected with described second
Fixed plate;
Second extended segment, the other end of second segmental arc connect second extended segment, and the one of second extended segment
End extends downwardly, wherein second perforation is set to second extended segment.
6. environmental monitoring gateway bracket as described in claim 1, which is characterized in that the environmental monitoring gateway bracket further includes
Two fixation kits, second fixation kit include the second bolt and the second nut, and second bolt head passes through described the
It is connect after two upper shells, second lower shell with second nut thread.
7. a kind of environmental monitoring system, which is characterized in that including environmental monitoring gateway branch described in claim 1 to 6 any one
Frame.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110894758A (en) * | 2019-12-05 | 2020-03-20 | 深圳市欣博莱特科技有限公司 | Equipment for realizing remote regulation and control by utilizing Lora technology |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110894758A (en) * | 2019-12-05 | 2020-03-20 | 深圳市欣博莱特科技有限公司 | Equipment for realizing remote regulation and control by utilizing Lora technology |
CN110894758B (en) * | 2019-12-05 | 2020-12-22 | 深圳市欣博莱特科技有限公司 | Equipment for realizing remote regulation and control by utilizing Lora technology |
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