CN206057357U - A kind of flow monitoring instrument mounting bracket - Google Patents

Abstract

This utility model is related to the technical field of acoustic Doppler fluid velocity profile instrument, a kind of flow monitoring instrument mounting bracket is disclosed, which includes guide rail, the sliding part that slides along the rail length direction, limit slippage part are along the 3rd locating part of slide, instrument installing plate and angle regulator；3rd locating part is connected with sliding part；The angle regulator includes that the first locating part being arranged on sliding part, the second locating part and both ends are respectively arranged at the connecting rod of the first locating part and the second locating part.The instrument installing plate is fixed on connecting rod.Installing rack passes through the adjustment of the first locating part and the second locating part to connecting rod position, and adjustment of the 3rd locating part to sliding part in terms of the depth of water, realizes the multi-faceted adjustment of instrument multi-angle in water, to meet the requirement of instrument settings.

Description

A kind of flow monitoring instrument mounting bracket

Technical field

This utility model is related to the technical field of flow monitoring instrument, in particular it relates to a kind of flow monitoring instrument mounting bracket.

Background technology

Water speed measurement is one of hydrology field important process, and ADCP (acoustic Doppler fluid velocity profile instrument) utilizes present position Section carry out flow measurement, with higher precision.Due to the impact of installation environment and current, in order that online ADCP is in optimal Operating attitude（That is instrument direction is vertical with water (flow) direction, and pitching and rolling are controlled within 1 degree of deviation）, need to configure with polygonal The guide rail of degree adjusting apparatus.Existing base type ADCP flows are monitored automatically adopt of probe more and are fixedly mounted on river bed, work as river course Inside there is water and pop one's head in when breaking down, the maintenance of probe, replacing, installation, debugging all extremely inconvenience affect the normal of monitoring system Operation.Some employing inflated type rubber buoyancy aid support systems, but because of complex structure, operation inconvenience, fluctuation of service, service life The reason such as short, be not easy to equipment probe installation, debugging, maintenances, replacing, impact automatic flow monitoring system normal operation. Disclosed in patent CN103105507A, ADCP sensors underwater vertical degree adjusting apparatus are related to worm and gear change speed gear box, rocking arm machine Structure, linear bearing, guide-bar mechanism, complex structure, assembly difficulty are high, cost intensive.Therefore, a kind of simple structure, good stability, Cheap ADCP sensor underwater vertical degree adjusting apparatus are to be badly in need of in the industry.

The content of the invention

The technical problem that this utility model is solved is the defect for overcoming prior art, there is provided a kind of flow monitoring instrument is installed Support.

This utility model purpose is achieved through the following technical solutions：

A kind of flow monitoring instrument mounting bracket, including guide rail, the sliding part along rail length direction slip, restriction cunning Moving part is along the 3rd locating part of slide, instrument installing plate and angle regulator；3rd locating part is connected with sliding part Connect；The angle regulator includes that the first locating part being arranged on sliding part, the second locating part and both ends are respectively provided with In the first locating part and the connecting rod of the second locating part；First stopping means include inverted U-shaped framework and with inverted U-shaped framework top The bolt that the screw in portion coordinates, the bolt and sleeve connection, the connecting rod are socketed on sleeve；Second locating part includes Support and the bearing being arranged on support, one end of the connecting rod is connected with bearing fit；The instrument installing plate is fixed on company On bar.

Installing rack described in the utility model passes through the cooperation of connecting rod and the first locating part and the second locating part, by the first limit The position adjustment of part and the second locating part to connecting rod position, and adjustment of the 3rd locating part to sliding part in terms of the depth of water, and then The adjustment to being arranged on instrument direction and orientation on instrument installing plate is realized, to meet the requirement of instrument use condition.The company The two ends of bar coordinate achievable connecting rod to rotate vertically with bearing and sleeve respectively.By the cooperation of bolt and sleeve, the company of realization Bar is moved along guide rail left and right directions and with fore-and-aft direction.

3 direction dimensions refer to：With the guide rail vertically put as referential, connecting rod is along guide rail left and right directions（X i.e. in accompanying drawing Direction of principal axis）And fore-and-aft direction（Y direction i.e. in accompanying drawing）, and along the length direction of guide rail（Z-direction i.e. in accompanying drawing）. The axial-rotation angle refers to：Axis along connecting rod rotates.

Further, the bolt that the inverted U-shaped frame facet is provided with bolt hole and is coordinated with bolt hole.The bolt can Abut to adjust the angle of connecting rod with sleeve, realize connecting rod in fore-and-aft direction（X-direction i.e. in accompanying drawing）Swing.

Further, support member is provided with the middle part of the sliding part, the support member is provided with through hole, and the connecting rod passes through logical Hole is arranged on support member.

Further, the sliding part includes the first sliding panel and the second sliding panel, and first sliding panel and second is slided Dynamic plate is connected by connecting rod.The sliding part is hollow frame structure, and it is hollow that the instrument installing plate is located at sliding part Position, current can be flow on instrument by hollow part.

Further, first sliding panel and the second sliding panel are respectively provided on two sides with sliding recess, and the slip is recessed Groove is coordinated with guide rail.The sliding recess of the guide rail and first sliding panel and the second sliding panel constitutes rail plate machine Structure.

Further, the 3rd locating part is pull bar, and one end of the pull bar is connected with sliding part, the other end and guide rail On fixture be flexibly connected.By the adjustment of pull bar fixed position on guide rail, and then conditioning instrumentation depth in water.Pass through Pull bar is easy to operator to be adjusted in the water surface.

Further, the end of the guide rail is provided with sliding part baffle plate.The sliding part baffle plate is located at the end of guide rail, with Sliding part is avoided to depart from guide rail.

Compared with prior art, this utility model has the advantages that：

This utility model flow monitoring instrument mounting bracket passes through the cooperation of connecting rod and the first locating part and the second locating part, leads to Cross the adjustment of the first locating part and the second locating part to connecting rod position, and tune of the 3rd locating part to sliding part in terms of the depth of water It is whole, realize the multi-faceted adjustment of instrument multi-angle in water, pitching and rolling controlled within 1 degree deviation, instrument direction with Water (flow) direction is vertical, meets the installation requirements of online flow velocity monitor controller.

Description of the drawings

Structural representations of the Fig. 1 for flow monitoring instrument mounting bracket；

Side views of the Fig. 2 for flow monitoring instrument mounting bracket

Rearviews of the Fig. 3 for flow monitoring instrument mounting bracket.

Specific embodiment

This utility model is further described with reference to specific embodiment.Wherein, being for illustration only property of accompanying drawing Illustrate, expression is only schematic diagram, rather than pictorial diagram, it is impossible to be interpreted as the restriction to this patent；In order to this reality is better described With new embodiment, accompanying drawing some parts have omission, zoom in or out, and do not represent the size of actual product；To ability For field technique personnel, some known features and its explanation in accompanying drawing may be omitted and be will be understood by.

Embodiment 1

As shown in Figures 1 to 3, a kind of guide rail 1 of flow monitoring instrument mounting bracket, including rectangle, along 1 length direction of guide rail slide Dynamic sliding part 2, limit slippage part 2 are along the 3rd locating part 21 of slide, instrument installing plate 3 and angle regulator.The Three locating parts 21 are connected with sliding part 2.Angle regulator includes that the first locating part 41, second being arranged on sliding part 2 is limited Position part 42 and both ends are respectively arranged at the connecting rod 43 of the first locating part 41 and the second locating part 42.

First stopping means 41 include inverted U-shaped framework 411, and with inverted U-shaped framework 411 at the top of screw coordinate bolt 412, bolt 412 is connected with sleeve 413, and connecting rod 43 is socketed on sleeve 413.

Second locating part 42 includes support 421 and the bearing 422 being arranged on support 421, one end of connecting rod 43 and bearing 422 are connected；Instrument installing plate 3 is fixed on connecting rod 43.

The bolt 412 that the side of inverted U-shaped framework 411 is provided with bolt hole and is coordinated with bolt hole.

The installing rack of the present embodiment passes through the cooperation of connecting rod 43 and the first locating part 41 and the second locating part 42, by first The adjustment of locating part 41 and the second locating part 42 to 43 position of connecting rod, and the 3rd locating part 21 to sliding part 2 in terms of the depth of water Adjustment, and then realize the adjustment to being arranged on instrument direction and orientation on instrument installing plate 3, to meet instrument use condition Require.

3 direction dimensions refer to：With the guide rail 1 vertically put as referential, connecting rod 43 is along 1 left and right directions of guide rail（That is accompanying drawing In X-direction）And fore-and-aft direction（Y direction i.e. in accompanying drawing）, and along the length direction of guide rail（Z axis i.e. in accompanying drawing Direction）.Axial-rotation angle refers to：Axis along connecting rod rotates.

In order to adjust with realizing multiple connecting rod positions, the number of the bolt hole of bending part 411 4 or more than 4.

Support member 22 is provided with the middle part of sliding part 2, support member 22 is provided with through hole, and connecting rod 43 is arranged at support member through through hole On 22.

Sliding part 2 includes the first sliding panel 23 and the second sliding panel 24, and the first sliding panel 23 is passed through with the second sliding panel 24 Connecting rod 43 connects.Sliding part 2 is hollow frame structure, and, positioned at the hollow position of sliding part 2, current can for instrument installing plate 3 To be flow on instrument by hollow part.

First sliding panel 23 and the second sliding panel 24 are respectively provided on two sides with sliding recess, and sliding recess is coordinated with guide rail 1. The sliding recess of guide rail 1 and the first sliding panel 23 and the second sliding panel 24 constitutes rail plate mechanisms.

3rd locating part 21 is pull bar, and one end of pull bar is connected with sliding part 2, the fixture 11 on the other end and guide rail 1 It is flexibly connected.By the adjustment of pull bar fixed position on guide rail 1, and then conditioning instrumentation depth in water.It is easy to by pull bar Operator are adjusted in the water surface.

The end of guide rail 1 is provided with sliding part baffle plate 12.Sliding part baffle plate 12 is located at the end of guide rail 1, to avoid sliding part 2 Depart from guide rail.

Guide rail 1 is provided with level indicator 13, and level indicator 13 is arranged at the top of guide rail 1, is easy to operator to observe.

Obviously, above-described embodiment is only intended to clearly illustrate the technical solution of the utility model example, and and Non- is the restriction to embodiment of the present utility model.For those of ordinary skill in the field, in described above On the basis of can also make other changes in different forms.There is no need to give thoroughly to all of embodiment Lift.All any modification, equivalent and improvement made within spirit of the present utility model and principle etc., should be included in this Within the protection domain that utility model right is required.

Claims (7)

1. a kind of flow monitoring instrument mounting bracket, it is characterised in that including guide rail, the slip slided along the rail length direction Part, limit slippage part are along the 3rd locating part of slide, instrument installing plate and angle regulator；3rd locating part with Sliding part connects；The angle regulator includes the first locating part, the second locating part and the both ends being arranged on sliding part It is respectively arranged at the first locating part, the connecting rod of the second locating part；

First stopping means include inverted U-shaped framework and the bolt with the screw cooperation of inverted U-shaped frame roof, the bolt With sleeve connection, the connecting rod is socketed on sleeve；The bearing that second locating part includes support and is arranged on support, institute The one end for stating connecting rod is connected with bearing fit；The instrument installing plate is fixed on connecting rod.

2. flow monitoring instrument mounting bracket according to claim 1, it is characterised in that the inverted U-shaped frame facet is provided with Bolt hole and the bolt coordinated with bolt hole.

3. flow monitoring instrument mounting bracket according to claim 1, it is characterised in that support is provided with the middle part of the sliding part Part, the support member are provided with through hole, and the connecting rod is arranged on support member through through hole.

4. the flow monitoring instrument mounting bracket according to claim 1 ~ 3 any one, it is characterised in that the sliding part includes First sliding panel and the second sliding panel, first sliding panel are connected by connecting rod with the second sliding panel.

5. flow monitoring instrument mounting bracket according to claim 4, it is characterised in that first sliding panel and second slides Plate is respectively provided on two sides with sliding recess, and the sliding recess coordinated with guide rail.

6. flow monitoring instrument mounting bracket according to claim 4, it is characterised in that the 3rd locating part includes pull bar, One end of the pull bar is connected with sliding part, and the other end is flexibly connected with the fixture on guide rail.

7. flow monitoring instrument mounting bracket according to claim 4, it is characterised in that the end of the guide rail is provided with sliding part Baffle plate.