CN208384110U - Self-propelled radar flow measuring device - Google Patents

Abstract

The utility model provides a kind of self-propelled radar flow measuring device, including carrier, the carrier is equipped with pedestal, revolution holder is rotatably connected on the pedestal, the revolution holder is equipped with gear ring, the pedestal is equipped with the first motor, the output end of first motor is connected with gear, the gear is meshed with gear ring, the revolution holder is equipped with vertical bar, flexion-extension platform is hinged on the vertical bar, the platform that pitches is sequentially connected with its first driving device for pitching movement of driving, the flexion-extension platform is equipped with plate flow velocity radar, high-definition camera and searchlight.With the above mentioned technical proposal, compared with prior art, the utility model has the advantages that: one platform of the utility model carries contactless flow rate monitoring system simultaneously, such as plate flow velocity radar, high-definition camera, emergency lighting system etc. realizes multimode emergency mobile monitoring, is suitable for the monitoring environment of various complexity.

Description

Self-propelled radar flow measuring device

Technical field

The utility model relates to hydrologic monitoring fields.

Specifically, being to be related to self-propelled radar flow measuring device.

Background technique

Existing mobile flow monitoring system is bridge measuring car, is a kind of contact flow measurement mode, in the biggish feelings of the flow velocity of water Under condition, there are certain security risks for contact flow measurement.

Operation, the maintenance work of contact flow measurement platform are complex, and integrated level is relatively low.It can not achieve to multimode Emergency mobile monitoring, does not adapt to the monitoring environment of various complexity.

Utility model content

The purpose of the utility model is to overcome the shortcomings of above-mentioned traditional technology, provide a kind of self-propelled radar survey Flow device carries contactless flow rate monitoring system, is suitable for the monitoring environment of various complexity.

The purpose of this utility model is reached by following technical measures:

Self-propelled radar flow measuring device, including carrier, the carrier are equipped with pedestal, are rotatably connected to back on the pedestal Turn holder, the revolution holder is equipped with gear ring, and the pedestal is equipped with the first motor, the output end of first motor It is connected with gear, the gear is meshed with gear ring, and the revolution holder is equipped with vertical bar, is hinged with flexion-extension on the vertical bar Platform, the platform that pitches are sequentially connected with its first driving device for pitching movement of driving, and the flexion-extension platform is equipped with plate flow velocity Radar, high-definition camera and searchlight.

As an improvement: flexion-extension axis is fixedly connected on the flexion-extension platform, the flexion-extension axis and vertical bar are rotatablely connected, institute It states and pitches axis and first driving device transmission connection.

As an improvement: the first driving device includes the second motor, and second motor output end is equipped with First pulley, the flexion-extension axis are equipped with the second belt wheel, and conveyer belt is equipped between the first pulley and the second belt wheel.

As an improvement: the vertical bar is hollow structure, and the conveyer belt is set on the inside of vertical bar.

As an improvement: second motor is set to vertical bar bottom end.

As an improvement: the gear ring is set to revolution holder lower part.

As an improvement: the revolution holder lower part is provided with rotating shaft, and axis is equipped between the rotating shaft and pedestal It holds.

As an improvement: the bearing is cylinder roller bearing.

As an improvement: the high-definition camera is set to plate flow velocity radar side, and the searchlight is set to flat The plate flow velocity radar other side.

As an improvement: the carrier is pick up.

By adopting the above-described technical solution, compared with prior art, the utility model has the advantages that: the utility model one A platform carries contactless flow rate monitoring system simultaneously, and such as plate flow velocity radar, high-definition camera, emergency lighting system etc. is real Existing multimode emergency mobile monitoring, is suitable for the monitoring environment of various complexity.

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

Detailed description of the invention

Attached drawing 1 is a kind of structural schematic diagram of self-propelled radar flow measuring device of the utility model.

Attached drawing 2 is the structure that holder and plate flow velocity radar are turned round in a kind of self-propelled radar flow measuring device of the utility model Schematic diagram.

Attached drawing 3 is the structural schematic diagram that holder is turned round in a kind of self-propelled radar flow measuring device of the utility model.

Attached drawing 4 is the structural schematic diagram of the middle section Fig. 3 A-A.

In figure: 1- plate flow velocity radar；2- high-definition camera；3- vertical bar；4- turns round holder；5- pedestal；6- searchlight；7- Rotating shaft；The first motor of 8-；9- gear；10- pitches platform；11- pitches axis；12- gear ring；The second motor of 13-；14- first Belt wheel；15- conveyer belt；16- bearing；The second belt wheel of 17-.

Specific embodiment

Embodiment: as shown in Fig. 1, self-propelled radar flow measuring device, including carrier, the carrier are pick up.

As shown in attached drawing 2 to 4, it is welded with pedestal 5 on the pick up top, 5 top of pedestal is rotatably connected to revolution Holder 4.

Specifically, 4 lower weld of revolution holder has rotating shaft 7, bearing is equipped between the rotating shaft 7 and pedestal 5 16, the bearing 16 is cylinder roller bearing.

Rack gear 12 is welded on the revolution holder 4, the gear ring 12 is set to revolution 4 lower part of holder.

The pedestal 5 is equipped with the first motor 8, and the output end of first motor 8 is connected with gear 9, the tooth Wheel 9 is meshed with gear ring 12.

First motor 8 is vertically arranged, and the gear 9 is set to 8 top of the first motor, first motor 8 are set to 5 side of pedestal.

First motor 8 starts, and the first motor 8 is rotated with moving gear 9, and gear 9 drives gear ring 12 to rotate, gear ring 12 drive revolution holder 4 to rotate.

It is welded with vertical bar 3 on the revolution holder 4, is hinged on the vertical bar 3 and pitches platform 10, the flexion-extension platform 10 is driven It is connected with its first driving device for pitching movement of driving,

Axis 11 is pitched specifically, being fixedly connected on the flexion-extension platform 10, the flexion-extension axis 11 is rotatablely connected with vertical bar 3, The flexion-extension axis 11 is sequentially connected with first driving device.

The first driving device includes the second motor 13, and 13 output end of the second motor is equipped with first pulley 14, the flexion-extension axis 11 is equipped with the second belt wheel 17, and conveyer belt 15 is equipped between the first pulley 14 and the second belt wheel 17.

The vertical bar 3 is hollow structure, and specific vertical bar 3 has round tube to be made, and the conveyer belt 15 is set in vertical bar 3 Side.

Second motor 13 is horizontally disposed.Second motor 13 is set to 3 bottom end of vertical bar.

Second motor 13 rotates, and conveyer belt 15 is driven to rotate, and conveyer belt 15 drives flexion-extension axis 11 to rotate, and pitches axis 11 drive flexion-extension platform 10 to rotate.

The flexion-extension platform 10 is equipped with plate flow velocity radar 1, high-definition camera 2 and searchlight 6.

The high-definition camera 2 is set to 1 side of plate flow velocity radar, and the searchlight 6 is set to plate flow velocity radar 1 The other side.

One embodiment of the utility model is described in detail above, but the content is only the utility model Preferred embodiment should not be considered as limiting the scope of the present invention.It is all to be made according to application scope of the utility model All the changes and improvements etc., should all belong within the patent covering scope of the utility model.

Claims (10)

1. self-propelled radar flow measuring device, including carrier, it is characterised in that: the carrier is equipped with pedestal (5), the pedestal (5) revolution holder (4) is rotatably connected on, the revolution holder (4) is equipped with gear ring (12), and the pedestal (5) is equipped with the The output end of one motor (8), first motor (8) is connected with gear (9), and the gear (9) is mutually nibbled with gear ring (12) It closes, the revolution holder (4) is equipped with vertical bar (3), and it is hinged on the vertical bar (3) and pitches platform (10), the flexion-extension platform (10) It is sequentially connected with its first driving device for pitching movement of driving, the flexion-extension platform (10) is equipped with plate flow velocity radar (1), height Clear video camera (2) and searchlight (6).

2. self-propelled radar flow measuring device according to claim 1, it is characterised in that: fixed on the flexion-extension platform (10) to connect It is connected to and pitches axis (11), the flexion-extension axis (11) and vertical bar (3) are rotatablely connected, and the flexion-extension axis (11) and first driving device pass Dynamic connection.

3. self-propelled radar flow measuring device according to claim 2, it is characterised in that: the first driving device includes the Two motor (13), the second motor (13) output end are equipped with first pulley (14), and the flexion-extensions axis (11) is equipped with the Two belt wheels (17) are equipped with conveyer belt (15) between the first pulley (14) and the second belt wheel (17).

4. self-propelled radar flow measuring device according to claim 3, it is characterised in that: the vertical bar (3) is hollow structure, The conveyer belt (15) is set on the inside of vertical bar (3).

5. self-propelled radar flow measuring device according to claim 3, it is characterised in that: the second motor (13) setting In vertical bar (3) bottom end.

6. according to claim 1 to 5 one of them described self-propelled radar flow measuring device, it is characterised in that: the gear ring (12) it is set to revolution holder (4) lower part.

7. according to claim 1 to 5 one of them described self-propelled radar flow measuring device, it is characterised in that: the revolution cloud Platform (4) lower part is provided with rotating shaft (7), is equipped with bearing (16) between the rotating shaft (7) and pedestal (5).

8. self-propelled radar flow measuring device according to claim 7, it is characterised in that: the bearing (16) is cylindrical roller Bearing.

9. according to claim 1 to 5 one of them described self-propelled radar flow measuring device, it is characterised in that: the high definition is taken the photograph Camera (2) is set to plate flow velocity radar (1) side, and the searchlight (6) is set to plate flow velocity radar (1) other side.

10. according to claim 1 to 5 one of them described self-propelled radar flow measuring device, it is characterised in that: the carrier is Pick up.