CN209623945U - A kind of Internet of Things hydrological monitoring device - Google Patents
A kind of Internet of Things hydrological monitoring device Download PDFInfo
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- CN209623945U CN209623945U CN201920530252.3U CN201920530252U CN209623945U CN 209623945 U CN209623945 U CN 209623945U CN 201920530252 U CN201920530252 U CN 201920530252U CN 209623945 U CN209623945 U CN 209623945U
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- fixed
- fixed cylinder
- things
- internet
- monitoring device
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Abstract
The utility model provides a kind of Internet of Things hydrological monitoring device.The Internet of Things hydrological monitoring device includes: fixed cylinder;The bottom of the fixed cylinder is fixed at the top of the testing agency in testing agency;Regulating mechanism, the regulating mechanism is set to the inside of the fixed cylinder, the regulating mechanism includes thread barrel and threaded rod, the bottom of the inner wall of the fixed cylinder is fixed in the bottom of the thread barrel, the surface screw thread of the threaded rod runs through the fixed cylinder and extends to the outside of the fixed cylinder in the inside of the thread barrel, the top of the threaded rod;The top of the threaded rod is fixed in treatment box, the bottom of the treatment box.Internet of Things hydrological monitoring device provided by the utility model, can adjust the extension elongation of threaded rod, and the scale on graduation mark can be corresponded to according to mark post, to learn the extension elongation of threaded rod, height can be used, the depth of sensed water level is controlled according to actual use situation, adjusting detection mechanism.
Description
Technical field
The utility model relates to hydrological monitoring field more particularly to a kind of Internet of Things hydrological monitoring devices.
Background technique
It during the water resources and hydropower construction in China, needs to be rigid in checking up to dam, because dam is as water conservancy water
A most important ring for electrical engineering, importance is self-evident, and in the process of construction of dam, some monitoring dresses will generally be added
It sets, has real-time understanding to the status of dam.
Existing Internet of Things hydrological monitoring device, can not adjust it using length when in use, can not be to different water levels at
The hydraulic pressure that dam is born is detected, and practicability is low.
Therefore, it is necessary to provide a kind of Internet of Things hydrological monitoring device solution above-mentioned technical problem.
Utility model content
The utility model provides a kind of Internet of Things hydrological monitoring device, solves existing Internet of Things hydrological monitoring device,
The problem of it is using length can not be adjusted when in use.
In order to solve the above technical problems, Internet of Things hydrological monitoring device provided by the utility model includes: fixed cylinder;Detection
Mechanism is fixed on the bottom of the fixed cylinder at the top of the testing agency;Regulating mechanism, the regulating mechanism are set to described
The inside of fixed cylinder, the regulating mechanism include thread barrel and threaded rod, and the fixed cylinder is fixed in the bottom of the thread barrel
Inner wall bottom, the surface screw thread of the threaded rod is in the inside of the thread barrel, and the top of the threaded rod is through described
Fixed cylinder and the outside for extending to the fixed cylinder;The top of the threaded rod is fixed in treatment box, the bottom of the treatment box;
Two indication mechanisms, two indication mechanisms are respectively arranged at the two sides of the fixed cylinder;Two stabilizing mechanisms, described in two
Stabilizing mechanism is respectively arranged at the top of the two sides of the inner wall of the fixed cylinder.
Preferably, the testing agency includes detection case, straight panel, two detectors and two through-holes, the detection case
The bottom of the fixed cylinder is fixed at top, and the top of the inner wall of the detection case is individually fixed at the top and bottom of the straight panel
Portion and bottom.
Preferably, two opposite sides of the detector are individually fixed in the two sides of the straight panel, two through-holes
It is opened in the two sides of the bottom of the detection case respectively.
Preferably, the indication mechanism includes transverse slat, graduated scale, graduation mark and mark post, is fixed at the top of the transverse slat
The side of the bottom of the treatment box, the side of the graduated scale are set to the side of the fixed cylinder, the graduation mark setting
In on the graduated scale, the bottom of the side of the transverse slat is fixed in one end of the mark post.
Preferably, the stabilizing mechanism includes two telescopic sleeving rods, steadying plate, two the first rotating blocks, two connecting rods, two
The side of the inner wall of the fixed cylinder is fixed in a second rotating block and stabilizing spring, one end of two telescopic sleeving rods, and two
The side of a first rotating block slides on the top and bottom of the side of the steadying plate respectively.
Preferably, one end of two connecting rods is individually fixed in the side of two first rotating blocks, described in two
The side of second rotating block rotates in the side of two first rotating blocks respectively, and the side of two second rotating blocks is equal
It is fixed on the side of the inner wall of the fixed cylinder, the stabilizing spring is set between two opposite sides of the first rotating block.
Preferably, the steadying plate is arc panel.
Compared with the relevant technologies, Internet of Things hydrological monitoring device provided by the utility model is had the following beneficial effects:
The utility model provides a kind of Internet of Things hydrological monitoring device, holds fixed cylinder by staff, makes its guarantor
It is fixed to keep steady, and rotates detection case, and detection case drives threaded rod rotation, adjusts the extension elongation of threaded rod, can carve according to mark post is corresponding
The scale on line is spent, thus learn the extension elongation of threaded rod, it can be according to actual use situation, the use of adjusting detection mechanism
Highly, the depth for controlling sensed water level improves the practicability of device, and the first rotation can be squeezed by the elastic force of stabilizing spring
Block, the first rotating block extrusion stability plate, two steadying plate thread-rolling screw bars can be improved stability when threaded rod uses, keep away
Exempt from the non-artificial rotation of threaded rod, so that monitoring height is changed, influence the accuracy of its monitoring data.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of preferred embodiment of Internet of Things hydrological monitoring device provided by the utility model;
Fig. 2 is the portion A shown in FIG. 1 enlarged diagram;
Fig. 3 is the portion B shown in FIG. 1 enlarged diagram;
Fig. 4 is prior art functional block diagram.
Figure label: 1, fixed cylinder, 2, testing agency, 21, detection case, 22, straight panel, 23, detector, 24, through-hole, 3, tune
Section mechanism, 31, thread barrel, 32, threaded rod, 4, treatment box, 5, indication mechanism, 51, transverse slat, 52, graduated scale, 53, graduation mark,
54, mark post, 6, stabilizing mechanism, 61, telescopic sleeving rod, 62, steadying plate, the 63, first rotating block, 64, connecting rod, the 65, second rotating block,
66, stabilizing spring.
Specific embodiment
The utility model is described in further detail with embodiment with reference to the accompanying drawing.
Please refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, wherein Fig. 1 is Internet of Things hydrological monitoring provided by the utility model dress
A kind of structural schematic diagram for the preferred embodiment set;Fig. 2 is the portion A shown in FIG. 1 enlarged diagram;Fig. 3 is the portion B shown in FIG. 1
Enlarged diagram;Fig. 4 is prior art functional block diagram.Internet of Things hydrological monitoring device includes: fixed cylinder 1;Testing agency 2, institute
The bottom of the fixed cylinder 1 is fixed at the top for stating testing agency 2;Regulating mechanism 3, the regulating mechanism 3 are set to described solid
The inside of safety barrel 1, the regulating mechanism 3 include thread barrel 31 and threaded rod 32, and the bottom of the thread barrel 31 is fixed on described
The bottom of the inner wall of fixed cylinder 1, the surface screw thread of the threaded rod 32 in the inside of the thread barrel 31, the threaded rod 32
Top runs through the fixed cylinder 1 and extends to the outside of the fixed cylinder 1;The bottom for the treatment of box 4, the treatment box 4 is fixed on
The top of the threaded rod 32;Two indication mechanisms 5, two indication mechanisms 5 are respectively arranged at the two of the fixed cylinder 1
Side;Two stabilizing mechanisms 6, two stabilizing mechanisms 6 are respectively arranged at the top of the two sides of the inner wall of the fixed cylinder 1.
The testing agency 2 includes detection case 21,22, two detectors 23 of straight panel and two through-holes 24, the detection case
The bottom of the fixed cylinder 1 is fixed at 21 top, and the top and bottom of the straight panel 22 are individually fixed in the detection case 21
Inner wall top and bottom.
Two opposite sides of the detector 23 are individually fixed in the two sides of the straight panel 22, and two through-holes 24 divide
It is not opened in the two sides of the bottom of the detection case 21, detector 23 is pressure sensor, the model of pressure sensor
PT124G-111。
The indication mechanism 5 includes transverse slat 51, graduated scale 52, graduation mark 53 and mark post 54, and the top of the transverse slat 51 is solid
Due to the side of the bottom of the treatment box 4, the side of the graduated scale 52 is set to the side of the fixed cylinder 1, the quarter
Degree line 53 is set on the graduated scale 52, and the bottom of the side of the transverse slat 51, scale are fixed in one end of the mark post 54
Line 53 is scribed according to the actual situation.
The stabilizing mechanism 6 include two telescopic sleeving rods 61,62, two the first rotating blocks of steadying plate, 63, two connecting rods 64,
The inner wall of the fixed cylinder 1 is fixed in two the second rotating blocks 65 and stabilizing spring 66, one end of two telescopic sleeving rods 61
Side, the side of two first rotating blocks 63 slides on the top and bottom of the side of the steadying plate 62 respectively, two
A telescopic sleeving rod 61 is used to support steadying plate 62.
One end of two connecting rods 64 is individually fixed in the side of two first rotating blocks 63, and two described second
The side of rotating block 65 rotates in the side of two first rotating blocks 63, the side of two second rotating blocks 65 respectively
It is both secured to the side of the inner wall of the fixed cylinder 1, the stabilizing spring 66 is set to opposite one of two the first rotating blocks 63
Between side, connecting rod 64 and the first rotating block 63 are used to support the second rotating block 65, and the second rotating block 65 is made to keep stablizing.
The steadying plate 62 is arc panel, and steadying plate 62 is adapted with threaded rod 32.
Central control unit, display control module, pressure monitoring module, wireless communication module, work are provided on treatment box 4
Make power module and display interface including central control system, display control module, pressure monitoring module, wireless communication module
It is electrically connected with central control system, display interface and display control module with working power module, pressure sensor and pressure
Power monitoring modular is electrically connected, and working power module is powered by battery for it, passes through wireless communication module and intelligence
Communicating terminal, which is realized, to be wirelessly connected, and is realized staff and is monitored in real time to the pressure everywhere in dam;Then pass through pressure
Induction of the force snesor to pressure sends alarm signal to intelligent communication terminal, so that staff by wireless communication module
It can be carried out corresponding measure, wherein display interface is used to show the real-time pressure value at this, guarantees that field personnel has intuitively
Understand.
The working principle of Internet of Things hydrological monitoring device provided by the utility model is as follows:
When in use, staff holds fixed cylinder 1, it is made to keep stablizing, and rotates detection case 21, and detection case 21 drives
Threaded rod 32 rotates, and adjusts the extension elongation of threaded rod 32, can be according to the scale on the corresponding graduation mark 53 of mark post 54, to learn
The extension elongation of threaded rod 32 squeezes the first rotating block 63,63 extrusion stability of the first rotating block by the elastic force of stabilizing spring 66
Plate 62, two 62 thread-rolling screw bars 32 of steadying plate can be improved stability when threaded rod 32 uses, avoid threaded rod 32 inhuman
For rotation, so that monitoring height is changed, influence the accuracy of its monitoring data, when monitoring, will test mechanism 2 into the water i.e.
It can detect its pressure.
Compared with the relevant technologies, Internet of Things hydrological monitoring device provided by the utility model is had the advantages that:
Fixed cylinder 1 is held by staff, it is made to keep stablizing, rotates detection case 21, detection case 21 drives screw thread
Bar 32 rotates, and adjusts the extension elongation of threaded rod 32, can be according to the scale on the corresponding graduation mark 53 of mark post 54, to learn screw thread
The extension elongation of bar 32 can use height, control the depth of sensed water level according to actual use situation, adjusting detection mechanism 2
Degree, improves the practicability of device, and the first rotating block 63 can be squeezed by the elastic force of stabilizing spring 66, and the first rotating block 63 squeezes
Steadying plate 62 is pressed, two 62 thread-rolling screw bars 32 of steadying plate can be improved stability when threaded rod 32 uses, avoid threaded rod
32 non-artificial rotations make monitoring height change, influence the accuracy of its monitoring data.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is applied directly or indirectly in
Other relevant technical fields, are also included in the patent protection scope of the utility model.
Claims (7)
1. a kind of Internet of Things hydrological monitoring device characterized by comprising
Fixed cylinder;
The bottom of the fixed cylinder is fixed at the top of the testing agency in testing agency;
Regulating mechanism, the regulating mechanism are set to the inside of the fixed cylinder, and the regulating mechanism includes thread barrel and screw thread
The bottom of the inner wall of the fixed cylinder is fixed in bar, the bottom of the thread barrel, and the surface screw thread of the threaded rod is in the spiral shell
The top of the inside of line cylinder, the threaded rod runs through the fixed cylinder and extends to the outside of the fixed cylinder;
The top of the threaded rod is fixed in treatment box, the bottom of the treatment box;
Two indication mechanisms, two indication mechanisms are respectively arranged at the two sides of the fixed cylinder;
Two stabilizing mechanisms, two stabilizing mechanisms are respectively arranged at the top of the two sides of the inner wall of the fixed cylinder.
2. Internet of Things hydrological monitoring device according to claim 1, which is characterized in that the testing agency includes detection
Case, straight panel, two detectors and two through-holes are fixed on the bottom of the fixed cylinder, the straight panel at the top of the detection case
Top and bottom be individually fixed in the detection case inner wall top and bottom.
3. Internet of Things hydrological monitoring device according to claim 2, which is characterized in that two detectors it is opposite one
Side is individually fixed in the two sides of the straight panel, and two through-holes are opened in the two sides of the bottom of the detection case respectively.
4. Internet of Things hydrological monitoring device according to claim 1, which is characterized in that the indication mechanism include transverse slat,
Graduated scale, graduation mark and mark post, are fixed on the side of the bottom of the treatment box at the top of the transverse slat, and the one of the graduated scale
Side is set to the side of the fixed cylinder, and the graduation mark is set on the graduated scale, and institute is fixed in one end of the mark post
State the bottom of the side of transverse slat.
5. Internet of Things hydrological monitoring device according to claim 1, which is characterized in that the stabilizing mechanism includes two and stretches
Contracting loop bar, steadying plate, two the first rotating blocks, two connecting rods, two the second rotating blocks and stabilizing springs, two telescopics
The side of the inner wall of the fixed cylinder is fixed in one end of bar, and the side of two first rotating blocks slides on described steady respectively
The top and bottom of the side of fixed board.
6. Internet of Things hydrological monitoring device according to claim 5, which is characterized in that one end difference of two connecting rods
It is fixed on the side of two first rotating blocks, the side of two second rotating blocks rotates in two described first respectively
The side of rotating block, the side of two second rotating blocks are both secured to the side of the inner wall of the fixed cylinder, the stabilization
Spring is set between two opposite sides of the first rotating block.
7. Internet of Things hydrological monitoring device according to claim 5, which is characterized in that the steadying plate is arc panel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920530252.3U CN209623945U (en) | 2019-04-18 | 2019-04-18 | A kind of Internet of Things hydrological monitoring device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920530252.3U CN209623945U (en) | 2019-04-18 | 2019-04-18 | A kind of Internet of Things hydrological monitoring device |
Publications (1)
Publication Number | Publication Date |
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CN209623945U true CN209623945U (en) | 2019-11-12 |
Family
ID=68458802
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201920530252.3U Expired - Fee Related CN209623945U (en) | 2019-04-18 | 2019-04-18 | A kind of Internet of Things hydrological monitoring device |
Country Status (1)
Country | Link |
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CN (1) | CN209623945U (en) |
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2019
- 2019-04-18 CN CN201920530252.3U patent/CN209623945U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191112 Termination date: 20210418 |
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CF01 | Termination of patent right due to non-payment of annual fee |