CN206146417U - High stability wavemeter - Google Patents
High stability wavemeter Download PDFInfo
- Publication number
- CN206146417U CN206146417U CN201620853454.8U CN201620853454U CN206146417U CN 206146417 U CN206146417 U CN 206146417U CN 201620853454 U CN201620853454 U CN 201620853454U CN 206146417 U CN206146417 U CN 206146417U
- Authority
- CN
- China
- Prior art keywords
- protection bucket
- wavemeter
- automatic telescopic
- bar
- high stability
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses a high stability wavemeter, comprising a base plate, be provided with the protection bucket on the bottom plate, protection bucket both sides are provided with the bracing piece, are provided with a wire collecting pipe and the 2nd wire collecting pipe on the protection barrel top portion outer wall, and the 2nd wire collecting pipe passes through the wire and is connected with protection bucket half inside iron ball, and half iron ball is connected with the hoop, are provided with first transmission shaft on the hoop and are connected through first transmission shaft and protection bucket, are provided with automatic expansion holding rod on four angles of bottom plate respectively, be provided with controlling means on the automatic expansion holding rod, controlling means passes through the wire and is connected with a wire collecting pipe or the 2nd wire collecting pipe, automatic expansion holding rod head is provided with the head afterbody that buries and is provided with the locking cap, the inside telescopic shaft that is provided with of automatic expansion holding rod, be provided with a plurality of location movable rod on the telescopic shaft, the telescopic shaft is terminal to be connected with controlling means through the control line. The utility model has the characteristics of simple structure, stability is high, grabs soil ability reinforce, and measurement accuracy is high.
Description
Technical field
The utility model is related to offshore hydrological observation technical field, more particularly to a kind of high stability wavemeter.
Background technology
Wavemeter is the instrument for observing wave spatial and temporal distributions characteristic.Stadia wave gauge and mark bar although the degree of accuracy is relatively low,
And affected larger by subjective factor, and it is but simple structure, easy to use, it is still key instrument that current bank station surveys ripple.
Patent No. ZL201320888643.5 discloses a kind of firm wavemeter device, including base plate, support bar, iron hoop,
Iron hemisphere and protection bucket, the protection bucket is arranged on the top of base plate by support bar, be it is characterized in that, four angles of the base plate set
Cylinder is equipped with, drill bit is installed on cylinder;By the connect setting of rotary shaft one on the inside of protection bucket, half iron ball passes through the iron hoop
The connect setting of rotary shaft two is provided with ultrasonic sensor on the inside of iron hoop on half iron ball surface.The device is fixed by drill bit
Squeeze into inside soil to make fixation, prevent it to be subjected to displacement or turn on one's side.
At present, existing wavemeter is when riverbed or sea bed is put into, because the basal plane of riverbed or sea bed is not level, its
Although transmitter can be automatically adjusted makes its own automatic horizontal, during decline or in water after long-time use,
Transmitter Jing is often snarled by foreign matter, and automatic horizontal regulatory function is stability failure, causes measurement data to be forbidden.It is particularly existing
All it is to be fixed into riverbed or sea bed bottom by common drill bit in technology, once single unit system shakes cause
The drill bit that buries produces loosening and easilys lead to device skew, affect the accuracy of its measurement data, it is seen that general drill bit is grabbed
Native ability.Therefore, it is necessary to guarantee that wavemeter itself has very high stability, ability in horizontality in use
Improve the precision of measurement.
The content of the invention
Utility model purpose:In order to overcome the deficiencies in the prior art, the utility model to provide a kind of simple structure,
Stability is high, grabs native ability by force, the high high stability wavemeter of certainty of measurement.
Technical scheme:To solve above-mentioned technical problem, the utility model provides a kind of high stability wavemeter, including bottom
Plate, is provided with protection bucket on the base plate, protection bucket both sides are provided with support bar, in protection bucket top exterior walls the first collection is provided with
Spool and the second collection spool, the second collection spool is connected by wire with half iron ball inside protection bucket, and half iron ball is connected with iron hoop,
The first power transmission shaft is provided with iron hoop and is connected with protection bucket by the first power transmission shaft, second driving shaft is provided with half iron ball simultaneously
It is connected with iron hoop by second driving shaft, protection bucket is internally provided with ultrasonic sensor, and base plate is respectively arranged with four angles
Automatic telescopic fix bar, is provided with control device in the automatic telescopic fix bar, the control device passes through wire and first
Collection spool or the second collection spool connection, the automatic telescopic fixation club head is provided with rostral-caudal of burying and is provided with locking cap,
Automatic telescopic fix bar is internally provided with telescopic shaft, and several positioning motion bars are provided with the telescopic shaft, and stretch shaft end
It is connected with control device by control line.By arranging automatic telescopic fix bar, riverbed or sea bed can be entered in wavemeter
Automatic telescopic fix bar is entered by soil deep by control device during bottom, then again by controlling line traffic control telescopic shaft upwards
Motion, the positioning motion bar for being stretches out automatic telescopic fixing rod outer wall and reaches into soil deep very big grabs native dynamics so that
The stability of overall wavemeter is higher, will not produce during water movement and rock, while ensure that measured by wavemeter
Data accuracy.
Further, the ultrasonic sensor is arranged on half iron ball.
Further, the automatic telescopic is fixed and springhole is provided with bar side wall, and the positioning motion bar is through elasticity
Hole, the length of the positioning motion bar is more than the diameter of 1/2nd automatic telescopic fix bar.By the way that positioning motion bar is worn
Cross springhole, can telescopic shaft move up and down during stationary positioned motion bar end, while in telescopic shaft uphill process
In be positioning motion bar pass through the outer wall of automatic telescopic fix bar to stretch into by springhole reach in soil increase and grab native dynamics
Effect.Simultaneously by arranging the diameter that the length of positioning motion bar is more than 1/2nd automatic telescopic fix bar, Ke Yida
To preferably grabbing native dynamics.
Further, the positioning motion bar in the automatic telescopic fix bar on telescopic shaft is no less than three groups, per group of positioning
Motion bar is no less than two.Can be reached by the positioning motion bar arranged no less than three groups per group no less than two and preferably be grabbed
Native dynamics, can strengthen more preferable stability.
Further, it is described to bury head for inverted cone.By burying, head is set to inverted cone
Effect of burying faster can be played, efficiency is improved.
Further, gravitational orientation device, the gravitational orientation device end are connected with by elastic threads on the base plate
For inverted cone.By arranging gravitational orientation device, more preferable stablizing effect can be played to wavemeter, while by setting
Elastic threads are put, it is convenient by gravitational orientation device when needing to leave riverbed or sea bed bottom after measurement terminates to cause
Extract from soil.
Further, the diameter of automatic telescopic fix bar of the length of the positioning motion bar more than 2/3rds.
The utility model compared with prior art, has the advantages that:
1st, the utility model, can be when wavemeter enters riverbed or sea bed bottom by arranging automatic telescopic fix bar
Automatic telescopic fix bar is entered by soil deep by control device, control line traffic control telescopic shaft is then passed through again and is moved upwards,
The positioning motion bar for being stretches out automatic telescopic fixing rod outer wall and reaches into soil deep very big grabs native dynamics so that overall to survey
The stability of ripple instrument is higher, will not produce during water movement and rock, while ensure that the data measured by wavemeter
Accuracy.
2nd, the utility model, can be fixed during telescopic shaft moves up and down by the way that positioning motion bar is passed through into springhole
The end of positioning motion bar, while the positioning motion bar for being in telescopic shaft uphill process is solid through automatic telescopic by springhole
The outer wall of fixed pole stretches into and the effect that native dynamics is grabbed in increase is reached in soil.It is more than two by arranging the length of positioning motion bar simultaneously
The diameter of/mono- automatic telescopic fix bar, can reach and preferably grab native dynamics.
3rd, the utility model can be reached more preferably by the positioning motion bar arranged no less than three groups per group no less than two
Grab native dynamics, more preferable stability can be strengthened.
Description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is top view of the present utility model;
Fig. 3 is the structural representation of automatic telescopic fix bar in Fig. 1;
Fig. 4 is telescopic shaft post exercise state diagram upwards in Fig. 3.
1st, the first collection spool, 2, protection bucket, 3, half iron ball, 4, ultrasonic sensor, 5, iron hoop, the 6, first power transmission shaft, 7,
Second collection spool, 8, wire, 9, control line, 10, locking cap, 11, automatic telescopic fix bar, 12, telescopic shaft, 13, control device,
14th, elastic threads, 15, gravitational orientation device, 16, bury head, 17, positioning motion bar, 18, support bar, 19, base plate, 20, second
Power transmission shaft, 21, springhole.
Specific embodiment
The utility model is further described below in conjunction with the accompanying drawings.
Embodiment one:As shown in Figures 1 to 4, the utility model includes base plate 19, and protection bucket 2 is provided with the base plate 19,
Protection bucket 2 both sides are provided with support bar 18, and the first collection spool 1 and the second collection spool 7 are provided with the protection top exterior walls of bucket 2, the
Two collection spools 7 are connected by wire 8 with half iron ball 3 inside protection bucket 2, and half iron ball 3 is connected with iron hoop 5, is provided with iron hoop 5
First power transmission shaft 6 is simultaneously connected by the first power transmission shaft 6 with protection bucket 2, second driving shaft 20 is provided with half iron ball 3 and passes through the
Two power transmission shafts 20 are connected with iron hoop 5, and protection bucket 2 is internally provided with ultrasonic sensor 4, and base plate is respectively arranged with 19 4 angles
Automatic telescopic fix bar 11, is provided with control device 13 in the automatic telescopic fix bar 11, the control device 13 is by leading
Line 8 is connected with the first collection collection spool 7 of spool 1 or second, and the head of automatic telescopic fix bar 11 is provided with the tail of head 16 that buries
Portion is provided with locking cap 10, and automatic telescopic fix bar 11 is internally provided with telescopic shaft 12, is provided with the telescopic shaft 12 some
Individual positioning motion bar 17, the end of telescopic shaft 12 is connected by control line 9 with control device 13.By arranging automatic telescopic fix bar
11, automatic telescopic fix bar 11 can be entered by soil by control device 13 when wavemeter enters riverbed or sea bed bottom
Deep, then controls telescopic shaft 12 and moves upwards by control line 9 again, and the positioning motion bar 17 for being stretches out automatic telescopic fixing rod
11 outer walls reach into soil deep very big grabs native dynamics so that the stability of overall wavemeter is higher, in water movement
During will not produce and rock, while ensure that the accuracy of the data measured by wavemeter.
Ultrasonic sensor 4 is arranged on half iron ball 3.Springhole 21, institute are provided with the side wall of automatic telescopic fix bar 11
Positioning motion bar 17 is stated through springhole 21, automatic telescopic fix bar of the length for positioning motion bar 17 more than 1/2nd
11 diameter.By will positioning motion bar 17 pass through springhole 21, can telescopic shaft 12 move up and down during stationary positioned
The end of motion bar 17, while the positioning motion bar 17 for being in the uphill process of telescopic shaft 12 is passed through by springhole 21 stretching automatically
The outer wall of contracting fix bar 11 stretches into and the effect that native dynamics is grabbed in increase is reached in soil.Simultaneously by arranging the length for positioning motion bar 17
The diameter of automatic telescopic fix bar 11 of the degree more than 1/2nd, can reach and preferably grab native dynamics.
Positioning motion bar 17 in automatic telescopic fix bar 11 on telescopic shaft 12 is three groups, and per group of positioning motion bar 17 is two
It is individual.Can be reached by the setting positioning motion bar 17 of three groups per group two and preferably grab native dynamics, can strengthen preferably steady
Qualitative energy.
The head 16 that buries is inverted cone.Being set to inverted cone by the head 16 that will bury can play more
Fast effect of burying, improves efficiency.
Embodiment two:The utility model includes base plate 19, and protection bucket 2 is provided with the base plate 19, and protection bucket 2 both sides set
Support bar 18 is equipped with, the first collection spool 1 and the second collection spool 7 are provided with the protection top exterior walls of bucket 2, the second collection spool 7 passes through
Wire 8 is connected with half iron ball 3 inside protection bucket 2, and half iron ball 3 is connected with iron hoop 5, and the first power transmission shaft 6 is provided with iron hoop 5 simultaneously
Be connected with protection bucket 2 by the first power transmission shaft 6, second driving shaft 20 is provided with half iron ball 3 and by second driving shaft 20 and
Iron hoop 5 connects, and protection bucket 2 is internally provided with ultrasonic sensor 4, is respectively arranged with automatic telescopic on 19 4 angles of base plate and fixes
Bar 11, is provided with control device 13 in the automatic telescopic fix bar 11, the control device 13 passes through the line concentration of wire 8 and first
The collection spool 7 of pipe 1 or second connects, and the head of automatic telescopic fix bar 11 is provided with the afterbody of head 16 that buries and is provided with locking cap
10, automatic telescopic fix bar 11 is internally provided with telescopic shaft 12, and several positioning motion bars 17 are provided with the telescopic shaft 12,
The end of telescopic shaft 12 is connected by control line 9 with control device 13.By arranging automatic telescopic fix bar 11, can be in wavemeter
Automatic telescopic fix bar 11 is entered by soil deep by control device 13 into when riverbed or sea bed bottom, is then passed through again
The control telescopic shaft 12 of control line 9 is moved upwards, and the positioning motion bar 17 for being stretches out the outer wall of automatic telescopic fixing rod 11 and enters soil
Deep reaches very big grabs native dynamics so that the stability of overall wavemeter is higher, will not produce during water movement
Rock, while ensure that the accuracy of the data measured by wavemeter.
Ultrasonic sensor 4 is arranged on half iron ball 3.Springhole 21, institute are provided with the side wall of automatic telescopic fix bar 11
Positioning motion bar 17 is stated through springhole 21, automatic telescopic fix bar of the length for positioning motion bar 17 more than 2/3rds
11 diameter.By will positioning motion bar 17 pass through springhole 21, can telescopic shaft 12 move up and down during stationary positioned
The end of motion bar 17, while the positioning motion bar 17 for being in the uphill process of telescopic shaft 12 is passed through by springhole 21 stretching automatically
The outer wall of contracting fix bar 11 stretches into and the effect that native dynamics is grabbed in increase is reached in soil.Simultaneously by arranging the length for positioning motion bar 17
The diameter of automatic telescopic fix bar 11 of the degree more than 2/3rds, can reach and preferably grab native dynamics.
Positioning motion bar 17 in automatic telescopic fix bar 11 on telescopic shaft 12 is three groups, and per group of positioning motion bar 17 is four
It is individual.Can be reached by the setting positioning motion bar 17 of three groups per group four and preferably grab native dynamics, can strengthen preferably steady
Qualitative energy.
The head 16 that buries is inverted cone.Being set to inverted cone by the head 16 that will bury can play more
Fast effect of burying, improves efficiency.
Gravitational orientation device 15 is connected with by elastic threads 14 on base plate 19, the end of gravitational orientation device 15 is inversion
Cone.By arranging gravitational orientation device 15, more preferable stablizing effect can be played to wavemeter, while by arranging bullet
Property rope 14, it is convenient by gravitational orientation device 15 to cause when needing to leave riverbed or sea bed bottom after measurement terminates
Extract from soil.
The above is only preferred embodiment of the present utility model, it should be pointed out that:For the common skill of the art
For art personnel, on the premise of without departing from the utility model principle, some improvements and modifications can also be made, these improve and
Retouching also should be regarded as protection domain of the present utility model.
Claims (7)
1. a kind of high stability wavemeter, including base plate, is provided with protection bucket on the base plate, protection bucket both sides are provided with support
Bar, it is characterised in that:The first collection spool and the second collection spool are provided with protection bucket top exterior walls, the second collection spool passes through wire
It is connected with half iron ball inside protection bucket, half iron ball is connected with iron hoop, the first power transmission shaft is provided with iron hoop and is passed by first
Moving axis is connected with protection bucket, second driving shaft is provided with half iron ball and is connected with iron hoop by second driving shaft, in protection bucket
Portion is provided with ultrasonic sensor, and automatic telescopic fix bar, the automatic telescopic fix bar are respectively arranged with four angles of base plate
On be provided with control device, the control device collects spool and is connected by wire with the first collection spool or second, described to stretch automatically
The fixed club head of contracting is provided with rostral-caudal of burying and is provided with locking cap, and automatic telescopic fix bar is internally provided with telescopic shaft, institute
State and be provided with telescopic shaft several positioning motion bars, flexible shaft end is connected by control line with control device.
2. a kind of high stability wavemeter according to claim 1, it is characterised in that:The ultrasonic sensor is arranged on
On half iron ball.
3. a kind of high stability wavemeter according to claim 1, it is characterised in that:The automatic telescopic fixes bar side wall
On be provided with springhole, the positioning motion bar passes through springhole, the length of the positioning motion bar more than 1/2nd from
The diameter of dynamic telescopic fixing rod.
4. a kind of high stability wavemeter according to one of claims 1 to 3, it is characterised in that:The automatic telescopic is consolidated
Positioning motion bar in fixed pole on telescopic shaft is no less than three groups, and per group of positioning motion bar is no less than two.
5. a kind of high stability wavemeter according to claim 4, it is characterised in that:It is described to bury head for inverted circle
Taper.
6. a kind of high stability wavemeter according to claim 4, it is characterised in that:Connected by elastic threads on the base plate
Gravitational orientation device is connected to, the gravitational orientation device end is inverted cone.
7. a kind of high stability wavemeter according to claim 1, it is characterised in that:The length of the positioning motion bar is big
In the diameter of 2/3rds automatic telescopic fix bar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620853454.8U CN206146417U (en) | 2016-08-04 | 2016-08-04 | High stability wavemeter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620853454.8U CN206146417U (en) | 2016-08-04 | 2016-08-04 | High stability wavemeter |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206146417U true CN206146417U (en) | 2017-05-03 |
Family
ID=58628158
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620853454.8U Expired - Fee Related CN206146417U (en) | 2016-08-04 | 2016-08-04 | High stability wavemeter |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206146417U (en) |
-
2016
- 2016-08-04 CN CN201620853454.8U patent/CN206146417U/en not_active Expired - Fee Related
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN109418184A (en) | Far-reaching sea aquaculture net cage | |
CN110115237A (en) | A kind of guide tracked anti-deep water culture intelligence net cage | |
CN104452726A (en) | Deep water region soil mass layered settlement monitoring device and method | |
CN106638570A (en) | Hinge enlarging head steel pipe pile | |
CN205580447U (en) | Automatic deviational survey pipe of fast -assembling | |
CN107410127A (en) | Combined anti-wind wave net cage group | |
CN206458155U (en) | A kind of communication steel tower with antidetonation capability of anti-wind | |
CN204418149U (en) | Profundal zone soil body deep soil settlement survey device | |
CN206146417U (en) | High stability wavemeter | |
CN101637138A (en) | Anti-current deformation device and control method for netting system of deepwater net cage | |
CN208056084U (en) | A kind of architecture foundation pile with shock absorbing effect | |
CN212748423U (en) | Surface water sampling device | |
CN210513159U (en) | Remote sensing survey and drawing sign pole | |
CN208064241U (en) | Guide tracked anti-deep water culture intelligence net cage | |
CN212534091U (en) | Pile driving device for ocean engineering | |
CN204225107U (en) | Gravity type pile engine | |
CN204228157U (en) | A kind of pile sinking inclination measurement instrument apparatus | |
CN107182878A (en) | Combined type current -resistance submerged cage group | |
CN107607684A (en) | A kind of water quality on-line detection method in high drop limiting water level river | |
CN107677780A (en) | A kind of water quality consistently online detection method of water body complicated and changeable | |
CN205985983U (en) | A interim cable laying frame of cross a river for electrical engineering | |
CN106638548A (en) | Sinking tubular gravel pile machine | |
CN207985116U (en) | A kind of ship anchor being applicable in sand mud geology | |
CN207567762U (en) | A kind of bridge construction anchor pole | |
CN207987994U (en) | A kind of pile testing method hammer systems |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170503 Termination date: 20170804 |
|
CF01 | Termination of patent right due to non-payment of annual fee |