CN205469677U - ADCP stabilising arrangement - Google Patents

Abstract

The utility model relates to a ADCP stabilising arrangement, the device include floater and telescoping device that top -down connected gradually, the telescoping device is including the pull rod and the pull rod jar that cup joint, be provided with the spring between pull rod and the pull rod jar, be provided with the cyclic annular pull rod latch of multilayer on the lateral wall of pull rod, cyclic annular pull rod latch encircles pull rod lateral wall a week, be provided with the cyclic annular pull rod jar latch with cyclic annular pull rod latch matched with on the inside wall of pull rod jar, cyclic annular pull rod jar latch encircles pull rod jar inside wall a week, the angle of inclination of side is greater than the angle of inclination of cyclic annular pull rod latch downside on the cyclic annular pull rod latch. ADCP's stabilising arrangement prevents instrument acutely rocking after receiving the wave and strikeing through the telescoping device, through the buoyancy of air cock adjustment floater, adapt to the ADCP of different weight, the commonality is high.

Description

A kind of ADCP stabilising arrangement

Technical field

This utility model relates to a kind of ADCP stabilising arrangement, belongs to the technical field of marine monitoring equipment.

Background technology

ADCP (full name is Acoustic Doppler Current Profilers) refers to that acoustic Doppler fluid velocity profile instrument is 20 generation Record a kind of flow measuring device of growing up at the beginning of the eighties.ADCP has can directly measure the fluid velocity profile of section, have not disturbance Flow field, test last short, test the speed the features such as scope is big.It is currently used for flow field structure investigation, flow velocity and the stream in ocean, river mouth Measurement is tested.ADCP is the instrument that Current Observations is conventional, and existing being usually used in walks boat monitoring, fixed point monitoring and seat bottom monitoring.

In prior art, mostly ADCP, when carrying out fixed point monitoring, is to be fixed on the ship side of oceanographic research ship by metal rack Measure；There is many deficiencies in the measurement of which:

1, metal rack and metal hull can produce impact to the certainty of measurement of ADCP；2, after ADCP being fixed on ship side, instrument With hull up and down or double swerve, labor can be produced, greatly have impact on monitoring accuracy by wave effect；It addition, The metal rack of fixing ADCP is heavier, carries inconvenience, installs and uses process complicated.

Utility model content

For the deficiencies in the prior art, this utility model provides a kind of ADCP stabilising arrangement.

The technical solution of the utility model:

A kind of ADCP stabilising arrangement, including the ball float being sequentially connected with from top to bottom and retractor device；Described retractor device includes socket Pull bar and pull bar cylinder；It is provided with spring between pull bar and pull bar cylinder；Multilamellar ring-type pull bar latch it is provided with on the sidewall of pull bar, One week, ring-type pull bar latch cincture pull bar lateral wall；It is provided with on the medial wall of described pull bar cylinder and matches with ring-type pull bar latch Ring-type pull bar cylinder latch, one week, ring-type pull bar cylinder latch cincture pull bar cylinder medial wall；The inclination angle of ring-type pull bar latch upper side is big Inclination angle in ring-type pull bar latch downside.

The inclination angle of described ring-type pull bar latch upper side refers to the acute angle that ring-type pull bar latch upper side is formed with horizontal plane；Ring-type The inclination angle of pull bar latch downside refers to the acute angle that ring-type pull bar latch downside is formed with horizontal plane.Pull bar produces with pull bar cylinder During relative displacement, due to ring-type pull bar latch and the mutual extruding of ring-type pull bar cylinder latch, produce elastic deformation, reduce pull bar and draw The speed of bar cylinder relative displacement；The inclination angle of ring-type pull bar latch upper side, more than the inclination angle of ring-type pull bar latch downside, is drawn Comparing during bar pull-up when pull bar moves down and be easier to, translational speed is the most faster.

ADCP in use, is connected to the bottom of pull bar cylinder by this device, and pull bar is connected with ball float, when wave makes to float by rope When ball floats rising, being easier to, pull bar pull-up rapidly upward, produce relative displacement with pull bar cylinder during pull bar pull-up, spring is drawn Stretch, reduce the acceleration that ADCP rises；After wave, spring retraction, relative difficulty when pull bar moves down, under pull bar is slow Moving, ADCP slowly declines；During this device can effectively alleviate wave, instrument the most acutely rocks.

Preferably, described ball float is connected with pull bar by the first cardo ring, and the first cardo ring connects hawser.Stabilising arrangement leads to Crossing the first cardo ring to be connected with hawser, prevent cable takeup to stabilising arrangement, rotate without limitation on ball float simultaneously, impact is stable The normal work of device.

Preferably, the two ends of spring are respectively fixedly disposed at pull bar top and the top of pull bar cylinder.

It is further preferred that the top of described pull bar is provided with spring stop.Spring stop is used for fixing spring, prevent spring from Landing on pull bar.

Preferably, the inclination angle of ring-type pull bar cylinder latch upper side is identical with the inclination angles of ring-type pull bar latch downside；Ring The inclination angle of shape pull bar cylinder latch downside is identical with the inclination angles of ring-type pull bar latch upper side.Described ring-type pull bar cylinder card The inclination angle of tooth upper side is the acute angle that ring-type pull bar cylinder latch upper side is formed with horizontal plane；Ring-type pull bar cylinder latch downside Inclination angle refers to the acute angle that ring-type pull bar cylinder latch downside is formed with horizontal plane.Described ring-type pull bar latch and ring-type pull bar cylinder card The angle of tooth is identical, reaches the purpose that ring-type pull bar latch engages during moving up and down with ring-type pull bar cylinder latch.

It is further preferred that the inclination angle of described ring-type pull bar latch upper side is 60 °～80 °；Ring-type pull bar latch downside Inclination angle be 10 °～30 °.

Preferably, described ADCP is connected to the bottom of retractor device by the second cardo ring.Second cardo ring further increases surely Determine motility and the stability of device.

Preferably, described ball float is inflating rubber ball, and inflating rubber ball is provided with charging connector.The advantage herein designed is, pin The ADCP of different model, quality is adjusted the tolerance in inflating rubber ball, changes the volume of inflating rubber ball, reach ball float buoyancy Purpose more than stabilising arrangement self gravitation；It addition, use can be by the air emptying in ball float, beneficially stabilising arrangement after terminating Deposit and transport.

Preferably, the outer surface of described ball float is provided with fluorescence coating.The advantage herein designed is, beneficially the discovery of stabilising arrangement and Location, it is achieved the real-time adjustment to the position of stabilising arrangement.

Preferably, described ball float is spherical structure.Spherical structure is streamlined structure, can alleviate stormy waves largely to stable The impulsive force of device, improves the stability of stabilising arrangement further.

Having the beneficial effect that of this utility model

1, ADCP stabilising arrangement described in the utility model, neighbouring without the metal such as metal rack and metal hull, effectively prevent ADCP Disturbed by metal；

2, ADCP stabilising arrangement described in the utility model, prevents instrument by acutely rocking after sea beat by retractor device； Being adjusted the buoyancy of ball float by valve, adapt to the ADCP of Different Weight, versatility is high；

3, ADCP stabilising arrangement described in the utility model, light easy installation, easy to carry, it is easy to popularization and application.

Accompanying drawing explanation

Fig. 1 is the structural representation of ADCP stabilising arrangement described in the utility model；

Fig. 2 is the longitdinal cross-section diagram of ADCP stabilising arrangement described in the utility model；

Wherein, 1, ball float；2, hawser；3, the first cardo ring；4, pull bar；5, pull bar cylinder；6, the second cardo ring；7、 ADCP；8, valve；9, spring；10, ring-type pull bar cylinder latch；11, ring-type pull bar latch；12, on ring-type pull bar latch The inclination angle of side；13, the inclination angle of ring-type pull bar latch downside；14, spring stop.

Detailed description of the invention

Below by embodiment and combine accompanying drawing this utility model is described further, but it is not limited to this.

Embodiment 1

As shown in Figure 1-2.

A kind of ADCP stabilising arrangement, including the ball float being sequentially connected with from top to bottom and retractor device；Described retractor device includes socket Pull bar 4 and pull bar cylinder 5；Spring 9 it is provided with between pull bar 4 and pull bar cylinder 5；It is provided with multilamellar ring-type on the sidewall of pull bar 4 Pull bar latch 11, ring-type pull bar latch 11 was around pull bar 4 lateral wall one week；Be provided with on the medial wall of described pull bar cylinder 5 with The ring-type pull bar cylinder latch 10 that ring-type pull bar latch 11 matches, ring-type pull bar cylinder latch 11 was around pull bar cylinder 5 medial wall one week； The inclination angle 12 of ring-type pull bar latch upper side is more than the inclination angle 13 of ring-type pull bar latch downside.

The inclination angle 12 of described ring-type pull bar latch upper side refers to the acute angle that ring-type pull bar latch 11 upper side is formed with horizontal plane； The inclination angle 13 of ring-type pull bar latch downside refers to the acute angle that ring-type pull bar latch 11 downside is formed with horizontal plane.Pull bar 4 When producing relative displacement with pull bar cylinder 5, due to ring-type pull bar latch 11 and the mutual extruding of ring-type pull bar cylinder latch 10, produce bullet Property deformation, reduce the speed of pull bar 4 and pull bar cylinder 5 relative displacement；The inclination angle 12 of ring-type pull bar latch upper side is more than ring-type The inclination angle 13 of pull bar latch downside, is easier to when pull bar 4 pulls up, relative difficulty when pull bar 4 moves down.

ADCP in use, is connected to the bottom of pull bar cylinder 5 by this device, and pull bar 4 is connected with ball float 1 by rope, works as ripple When wave makes ball float 1 float rising, pull bar 4 is easier to when pulling up, and pull bar 4 pull-up rapidly upward produces relative with pull bar cylinder 5 Displacement, spring 9 is stretched, and reduces the acceleration that ADCP rises；After wave, spring 9 bounces back, and pull bar 4 moves down phase To difficulty, pull bar 4 slowly moves down, and ADCP slowly declines；During this device can effectively alleviate wave, ADCP the most acutely rocks.

Embodiment 2

ADCP stabilising arrangement as described in Example 1, its difference is, described ball float 1 is by the first cardo ring 3 and pull bar 4 Connecting, the first cardo ring 3 connects hawser 2.Stabilising arrangement is connected with hawser 2 by the first cardo ring 3, prevents hawser 2 It is wound on stabilising arrangement, rotates without limitation on ball float 1 simultaneously, affect the normal work of stabilising arrangement.

Embodiment 3

ADCP stabilising arrangement as described in Example 1, its difference is, the two ends of spring 9 are respectively fixedly disposed at pull bar 4 and push up End and the top of pull bar cylinder 5.

Embodiment 4

ADCP stabilising arrangement as described in Example 3, its difference is, the top of described pull bar 4 is provided with spring stop 14. Spring stop 14 is used for fixing spring 9, prevents spring 9 landing from pull bar 4.

Embodiment 5

ADCP stabilising arrangement as described in Example 1, its difference is, the inclination angle of ring-type pull bar cylinder latch upper side is with ring-type Inclination angle 13 angle of pull bar latch downside is identical；On the upside of the inclination angle of ring-type pull bar cylinder latch downside and ring-type pull bar latch Inclination angle 12 angle in face is identical.The inclination angle of described ring-type pull bar cylinder latch upper side is ring-type pull bar cylinder latch 10 upper side The acute angle formed with horizontal plane；The inclination angle of ring-type pull bar cylinder latch downside refers to ring-type pull bar cylinder latch 10 downside and level The acute angle that face is formed.Described ring-type pull bar latch 11 is identical with the angle of ring-type pull bar cylinder latch 10, reaches ring-type pull bar latch 11 purposes engaged with ring-type pull bar cylinder latch 10 during moving up and down.

Embodiment 6

ADCP stabilising arrangement as described in Example 1, its difference is, described ADCP is connected to stretch by the second cardo ring 6 The bottom of compression apparatus.Second cardo ring 6 further increases motility and the stability of stabilising arrangement.

Embodiment 7

ADCP stabilising arrangement as described in Example 1, its difference is, described ball float 1 is inflating rubber ball, inflating rubber ball On be provided with charging connector 8.The advantage herein designed is, the ADCP for different model, quality adjusts the gas in inflating rubber ball Amount, changes the volume of inflating rubber ball, reaches the ball float buoyancy purpose more than stabilising arrangement self gravitation；Terminate it addition, use After can depositing the air emptying in ball float 1, beneficially stabilising arrangement and transporting.

Embodiment 8

ADCP stabilising arrangement as described in Example 1, its difference is, the outer surface of described ball float 1 is provided with fluorescence coating.This The advantage of place's design is, the beneficially discovery of stabilising arrangement and location, it is achieved the real-time adjustment to the position of stabilising arrangement.

Embodiment 9

ADCP stabilising arrangement as described in Example 1, its difference is, described ball float 1 is spherical structure.Spherical structure is stream Linear structure, can alleviate the stormy waves impulsive force to stabilising arrangement largely, improves the stability of stabilising arrangement further.

Embodiment 10

ADCP stabilising arrangement as described in Example 5, its difference is, the inclination angle 12 of described ring-type pull bar latch upper side It it is 70 °；The inclination angle 13 of ring-type pull bar latch downside is 20 °.

Claims (10)

1. an ADCP stabilising arrangement, it is characterised in that include ball float and the retractor device being sequentially connected with from top to bottom；Described Retractor device includes pull bar and the pull bar cylinder of socket；It is provided with spring between pull bar and pull bar cylinder；It is provided with many on the sidewall of pull bar The ring-type pull bar latch of layer, one week, ring-type pull bar latch cincture pull bar lateral wall；It is provided with ring-type on the medial wall of described pull bar cylinder The ring-type pull bar cylinder latch that pull bar latch matches, one week, ring-type pull bar cylinder latch cincture pull bar cylinder medial wall；Ring-type pull bar latch The inclination angle of upper side is more than the inclination angle of ring-type pull bar latch downside.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that described ball float passes through the first cardo ring and draws Bar connects, and the first cardo ring connects hawser.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that the two ends of spring are respectively fixedly disposed at draws Masthead end and the top of pull bar cylinder.

ADCP stabilising arrangement the most according to claim 3, it is characterised in that the top of described pull bar is provided with spring catch Plate.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that the inclination of ring-type pull bar cylinder latch upper side Angle is identical with the inclination angles of ring-type pull bar latch downside；The inclination angle of ring-type pull bar cylinder latch downside and ring-type pull bar card The inclination angles of tooth upper side is identical.

ADCP stabilising arrangement the most according to claim 5, it is characterised in that inclining of described ring-type pull bar latch upper side Oblique angle is 60 °～80 °；The inclination angle of ring-type pull bar latch downside is 10 °～30 °.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that described ADCP is connected by the second cardo ring Bottom at retractor device.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that described ball float is inflating rubber ball, inflation Charging connector it is provided with in ball.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that the outer surface of described ball float is provided with fluorescence Layer.

ADCP stabilising arrangement the most according to claim 1, it is characterised in that described ball float is spherical structure.