CN209340823U - Hologram radar mounting structure for rod-shaped scaffold - Google Patents

Abstract

The utility model discloses a kind of hologram radar mounting structures for rod-shaped scaffold, it is related to Radar Technology field, aim to solve the problem that connection structure in the prior art can not be stable is connected on lamp stand, its key points of the technical solution are that including the first runner assembly being arranged on hologram radar bottom surface, it is connected to the second turning discreteness and the connecting plate for connecting with lamp stand on the first runner assembly, the second turning discreteness is located at side of first runner assembly far from hologram radar, the connecting plate is located at side of the second turning discreteness far from the first runner assembly, first runner assembly is connected to hologram radar bottom surface, the second turning discreteness and connecting plate are connected in turn on the first runner assembly, it is connect using connecting plate with lamp stand, it can be connected to hologram radar is stable on lamp stand with this.

Description

Hologram radar mounting structure for rod-shaped scaffold

Technical field

The utility model relates to Radar Technology fields, more specifically, it relates to a kind of holographic thunder for rod-shaped scaffold Up to mounting structure.

Background technique

Hologram radar is the principle using holography and radar and the technical equipment to work.Radar uses the side of radio Method discovery target and the spatial position for measuring them.Therefore, radar is also referred to as " radio-positioning ".Radar is to utilize electromagnetic wave Detect the electronic equipment of target.Radar emission electromagnetic wave is irradiated to target and receives its echo, thus to obtain target to electricity The information such as distance, range rate (radial velocity), orientation, the height of magnetic wave launch point.Microwave is the very short radio of wavelength The directionality of wave, microwave is fine, and speed is equal to the light velocity.Microwave encounters vehicle and is reflected back immediately, then is connect by radar speed meter It receives.

Holographic technique is record and the reproduction using interference and diffraction principle record and the true 3-D image of reconstructed object Technology.Radar is the information such as detection target range change rate (radial velocity), orientation, height.Hologram radar is then using complete The technical equipment for ceasing the principle of art and radar and working.Hologram radar obtains the radar stereo-picture of target, class with dual-stage method It is similar to optical holography.

Hologram radar is mounted on traffic intersection to detect vehicle, it can be to bi-directional vehicle, ship and pedestrian Multiple target tracking information, the real time information such as three-dimensional coordinate, speed and state including all targets, it is possible to provide vehicle flowrate, flat The statistical informations such as equal speed, lane occupancy ratio, and the event informations such as parking, retrograde, low speed, hypervelocity, congestion, lane change, and energy Live-pictures or video are provided, to monitor and verify field condition.It is conducive to provide accurate vehicle detecting information, it can also be with The magnitude of traffic flow and traffic events are detected, and can be to realize the visualization of detection data in real-time display at the scene monitor video.

Authorization Notice No. is that the Chinese patent of CN206831107U discloses a kind of radar for facilitating installation in existing patent Mounting bracket, including radar, further include magnet and radar mounting bracket, and the radar mounting bracket includes vertical plate interconnected And supporting plate, the magnet are arranged in the outer upper of the vertical plate and connect with the vertical plate, the radar is arranged in the support The upper surface of plate is simultaneously connect with the supporting plate, and the vertical plate and the supporting plate are to be flexibly connected, the lower inside of the vertical plate with Dampening assembly is set between the lower surface of the supporting plate, and the dampening assembly includes sleeve, support rod and spring, the sleeve Upper end is flexibly connected with the lower surface of the supporting plate, and the lower end of the sleeve is set in the upper end outer surface of the support rod, institute The lower end for stating support rod is flexibly connected with the lower inside of the vertical plate, and postive stop baffle is arranged in the upper end outer surface of the sleeve, Stop nut is set on the lower end outer surface of the support rod, and the spring is arranged in the postive stop baffle and the stop nut Between and be all connected with the postive stop baffle and the stop nut.

The prior art is to be connect by strong magnets with extraneous mounting, due to the red street lamp post of traffic intersection or road Lamp lamp stand is generally round bar shape, and when being connect using the connection structure with lamp stand, what radar can not be stable is mounted on lamp stand.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of holographies for rod-shaped scaffold Radar mounting structure has the advantage being stably connected with lamp stand.

To achieve the above object, the utility model provides following technical solution:

A kind of hologram radar mounting structure for rod-shaped scaffold, including the first rotation being arranged on hologram radar bottom surface Component is connected to the second turning discreteness and the connecting plate for connecting with lamp stand on the first runner assembly, second rotation Component is located at side of first runner assembly far from hologram radar, and the connecting plate is located at the second turning discreteness far from the first rotation The side of component.

By using above-mentioned technical proposal, the first runner assembly is connected to hologram radar bottom surface, by the second turning discreteness It is connected in turn on the first runner assembly with connecting plate, is connect using connecting plate with lamp stand, can be stablized hologram radar with this Be connected on lamp stand.

Further, first runner assembly includes the fixed plate connecting with hologram radar bottom surface, the fixed plate edge The vertical direction of hologram radar is arranged, and the fixed plate is equipped with arc groove, and the arc of the arc groove is away from hologram radar Side protrusion, the side of the fixed plate are equipped with rotor plate, and the fixed plate, which is equipped with, is each passed through arc groove and rotor plate, simultaneously The fixing bolt being threadedly coupled with fixture nut, one end on the rotor plate far from hologram radar is equipped with linkage board, described Movable plate is parallel with the bottom surface of hologram radar, and fixinig plate, level of the fixinig plate along hologram radar are connected on the linkage board Direction setting.

By using above-mentioned technical proposal, it is connect using fixed plate with hologram radar bottom surface, by fixing bolt in arc Position in slot, angle between adjustable rotor plate and fixed plate, so as to adjust the vertical direction of hologram radar Angle is conducive to adapt to different road conditions testing requirements, is conducive to the scope of application for increasing hologram radar.

Further, the fixed plate is equipped with positioning plate far from one end of rotor plate, the positioning plate and hologram radar Bottom surface welding.

It by using above-mentioned technical proposal, is welded using positioning plate and hologram radar, is conducive to increase fixed plate and holography The stability of radar installation, so as to increase the stability of hologram radar installation.

Further, the fixed plate is equipped with the first bolt across rotor plate, and first bolt passes through rotor plate Threaded one end be connected with the first nut.

By using above-mentioned technical proposal, hologram radar is adjusted to suitable angle, by fixing bolt and fixture nut After fixed fixed plate and rotor plate, it is again coupled to fixed plate and rotor plate using the first bolt and the first nut, so as to increase The stability that fixed board is connected with rotor plate is reinforced, is conducive to reinforce the stability that hologram radar connects on lamp stand.

Further, the second turning discreteness includes the rotatable lamella that fixinig plate side is arranged in, and is set on the rotatable lamella There is semi-annular slot, towards the side of hologram radar protrusion, the rotatable lamella is equipped with and is each passed through the cambered surface of the semi-annular slot The positioning bolt of semi-annular slot and fixinig plate, the threaded one end that the positioning bolt passes through fixinig plate are connected with location nut.

By using above-mentioned technical proposal, hologram radar is adjusted to suitable angle, passes through positioning bolt and positioning spiral shell Mother screws, so as to which fixinig plate and rotatable lamella to be fixed together, with the horizontal direction of this adjustable hologram radar On angle, the detection of different road conditions is adapted to this, be conducive to increase hologram radar the scope of application.

Further, the rotatable lamella is equipped with the second bolt across fixinig plate, and second bolt passes through fixinig plate Threaded one end be connected with the second nut.

By using above-mentioned technical proposal, after positioning bolt, location nut are screwed, the second bolt and the second nut are utilized It screws, so as to further strengthen the connective stability of fixinig plate and rotatable lamella, hologram radar can be further strengthened with this The stability being mounted on lamp stand.

Further, gasket is equipped between the positioning bolt and rotatable lamella, between fixing bolt and fixed plate.

By using above-mentioned technical proposal, when positioning bolt is threadedly coupled with location nut, fixing bolt with fixture nut, Using gasket, be conducive to the contact area for increasing separately positioning bolt and rotatable lamella, fixing bolt and fixed plate, so as to increase The stability connected between strong fix bolt and rotatable lamella, fixing bolt and fixed plate is conducive to its hologram radar further The stability of installation.

Further, the rotatable lamella is connected with locating plate, the locating plate and holographic thunder far from one end of hologram radar Parallel up to bottom surface, the connecting plate is equipped with several third bolts for passing through locating plate, and the third bolt passes through locating plate One end be connected with third nut, the both ends of the connecting plate are equipped with the waist-shaped hole pair passed through for anchor ear, the waist-shaped hole pair Width direction along connecting plate is arranged.

By using above-mentioned technical proposal, it is connect using locating plate with connecting plate, waist-shaped hole pair is each passed through by anchor ear, It is fixedly connected again with lamp stand, so as to which connecting plate to be fixed on lamp stand, may be implemented hologram radar being mounted on lamp with this On bar.

Further, the side wall of remotely located side of the connecting plate is equipped with the rubber for the arc being bonded with lamp stand side wall Glue gasket, the rubber sheet gasket is between two waist-shaped holes pair.

It is pushed against using rubber sheet gasket when anchor ear is connect with lamp stand by using above-mentioned technical proposal and is compressed in lamp stand On side wall, is conducive to increase the frictional force between rubber sheet gasket and lamp stand, the compactness that anchor ear is connect with lamp stand can also be increased, Be conducive to further increase the stability that hologram radar is mounted on lamp stand.

In conclusion the utility model has the following beneficial effects:

1, it is connect using the first runner assembly with hologram radar bottom surface, by the second turning discreteness and connecting plate respectively with The connection of one runner assembly recycles anchor ear connection connecting plate and lamp stand, so as to by hologram radar it is stable be mounted on lamp stand On lateral wall；

2, change position of the fixing bolt in arc groove, then tightened with fixture nut, so as to fixed rotor plate and Rotor plate, and then hologram radar is fixed on lamp stand, with the angle of the vertical direction of this adjustable hologram radar, be conducive to Different road conditions testing requirements are adapted to, the scope of application for increasing hologram radar is conducive to；

3, change position of the positioning bolt in semi-annular slot, so as to change the angle between rotatable lamella and fixinig plate Degree, then tightened with location nut, so as to fixed rotatable lamella and fixinig plate, then hologram radar is fixed on lamp stand, with The angle of the horizontal direction of this adjustable hologram radar is conducive to adapt to different road conditions testing requirements, is also beneficial to increase complete Cease the scope of application of radar.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of embodiment.

Fig. 2 is the structural schematic diagram for embodying the first runner assembly in embodiment.

Fig. 3 is the structural schematic diagram for embodying the second turning discreteness in embodiment.

Fig. 4 be embody embodiment in locating plate, waist-shaped hole to and connecting plate structural schematic diagram.

Fig. 5 is the structural schematic diagram for embodying rubber sheet gasket in embodiment.

In figure: 1, hologram radar；2, the first runner assembly；20, fixed plate；21, arc groove；22, rotor plate；23, fixed Bolt；24, fixture nut；25, linkage board；26, fixinig plate；27, positioning plate；28, the first bolt；29, the first nut；3, second Runner assembly；30, rotatable lamella；31, semi-annular slot；32, positioning bolt；33, location nut；34, the second bolt；35, the second spiral shell It is female；36, gasket；37, locating plate；4, connecting plate；5, third bolt；6, third nut；7, waist-shaped hole pair；8, rubber sheet gasket.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Embodiment:

Referring to Fig.1, a kind of hologram radar mounting structure for rod-shaped scaffold comprising be arranged in 1 bottom surface of hologram radar On the first runner assembly 2, be connected to the second turning discreteness 3 and the connection for connecting with lamp stand on the first runner assembly 2 Plate 4, the second turning discreteness 3 are located at the first side of the runner assembly 2 far from hologram radar 1, and the connecting plate 4 is located at second Side of the runner assembly 3 far from the first runner assembly 2；It is connect using the first runner assembly 2 with 1 bottom surface of hologram radar, passes through Two runner assemblies 3 are connect with the first runner assembly 2, and connecting plate 4 is connect with the second turning discreteness 3, and connecting plate 4 is connect with lamp stand, So as to which hologram radar 1 is fixedly mounted on lamp stand.

Referring to Fig. 2, the first runner assembly 2 includes two fixed plates 20 that are connecting with 1 bottom surface of hologram radar and being oppositely arranged, Fixed plate 20 is lug-shaped, and two fixed plates 20 are arranged along the vertical direction of hologram radar 1, is equipped with arc groove in two fixed plates 20 21, the arc of arc groove 21 is raised away from 1 side of hologram radar, and two rotor plates 22, rotation are equipped between two fixed plates 20 Plate 22 is in lug-shaped, and fixed plate 20 is equipped with and is each passed through arc groove 21 and rotor plate 22 and is threadedly coupled with fixture nut 24 Fixing bolt 23, one end on two rotor plates 22 far from hologram radar 1 is connected with linkage board 25 jointly, linkage board 25 and holographic The bottom surface of radar 1 is parallel, and two opposite fixinig plates 26 are connected on linkage board 25, and fixinig plate 26 is in lug-shaped, two fixinig plates 26 Along the horizontally arranged of hologram radar 1；It is connect using fixed plate 20 with 1 bottom surface of hologram radar, by fixed plate 20 and rotation Plate 22 is adjusted to suitable position, is connected fixed plate 20 and rotor plate 22 using fixing bolt 23, so as to by holographic thunder It is mounted on lamp stand up to 1.

Referring to Fig. 2, two one end of fixed plate 20 far from rotor plate 22 are connected with positioning plate 27, positioning plate 27 and holography jointly It welds the bottom surface of radar 1；Fixed plate 20 is equipped with the first bolt 28 across rotor plate 22, and the first bolt 28 passes through rotor plate 22 Threaded one end be connected with the first nut 29；Using the first bolt 28 and the first nut 29 by fixed plate 20 and rotor plate 22 into one Step is reinforced fixing, and is conducive to further strengthen the stability that the first runner assembly 2 and hologram radar 1 connect.

Referring to Fig. 3, the second turning discreteness 3 includes the rotatable lamella 30 that two fixinig plates, 26 outside is arranged in, and rotatable lamella 30 is in convex Ear shaped, is equipped with semi-annular slot 31 on rotatable lamella 30, and the cambered surface of semi-annular slot 31 is towards the side of hologram radar 1 protrusion, rotation Piece 30 is equipped with the positioning bolt 32 for being each passed through semi-annular slot 31 and fixinig plate 26, and positioning bolt 32 passes through the one of fixinig plate 26 End is threaded with location nut 33；Rotatable lamella 30 is equipped with the second bolt 34 across fixinig plate 26, and the second bolt 34 passes through The threaded one end of fixinig plate 26 is connected with the second nut 35；Rotatable lamella 30 and fixinig plate 26 are adjusted to suitable position, tightened Positioning bolt 32 and location nut 33, the first bolt 28 and the second nut 35, so as to fixed fixinig plate 26 and rotatable lamella 30.

Referring to Fig. 3, gasket is equipped between positioning bolt 32 and rotatable lamella 30, between fixing bolt 23 and fixed plate 20 36；The contact area of positioning bolt 32 and rotatable lamella 30, fixing bolt 23 and fixed plate 20 can be increased, using gasket 36 with this Positioning bolt 32 and location nut 33, fixing bolt 23 and fixture nut 24(can be increased with reference to the stabilization connected between Fig. 2) Property.

Referring to Fig. 4, two one end of rotatable lamella 30 far from hologram radar 1 are connected with locating plate 37 jointly, locating plate 37 and complete Breath 1 bottom surface of radar is parallel, and connecting plate 4 is equipped with 4 third bolts 5 for passing through locating plate 37, and third bolt 5 passes through locating plate 37 One end be connected with third nut 6, the both ends of connecting plate 4 are equipped with the waist-shaped hole passed through for anchor ear to 7, and waist-shaped hole is to 7 along even The width direction of fishplate bar 4 is arranged, and the side wall of 4 remotely located 37 sides of connecting plate is equipped with the arc being bonded with lamp stand side wall Referring to Fig. 5), rubber sheet gasket 8 is elastic material by rubber sheet gasket 8(, and rubber sheet gasket 8 is located at two waist-shaped holes between 7；Utilize third Bolt 5 connects connecting plate 4 and locating plate 37, pricks hoop and connect to 7 with lamp stand across waist-shaped hole, so as to which connecting plate 4 is fixed On lamp stand, hologram radar 1 may be implemented with this and be fixed on lamp stand.

Working principle is as follows: being connected on hologram radar 1 using the first runner assembly 2, the second turning discreteness 3 and first turn Dynamic component 2 connects, and rotor plate 22 is connect with the second turning discreteness 3, hologram radar 1 can be fixed on lamp stand with this.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (9)

1. a kind of hologram radar mounting structure for rod-shaped scaffold, it is characterised in that: including being arranged in hologram radar (1) bottom surface On the first runner assembly (2), be connected on the first runner assembly (2) the second turning discreteness (3) and for connecting with lamp stand Connecting plate (4), the second turning discreteness (3) be located at the first runner assembly (2) far from hologram radar (1) side, it is described Connecting plate (4) is located at the side of the second turning discreteness (3) far from the first runner assembly (2).

2. the hologram radar mounting structure according to claim 1 for rod-shaped scaffold, it is characterised in that: described first turn Dynamic component (2) include the fixed plate (20) connecting with hologram radar (1) bottom surface, and the fixed plate (20) is along hologram radar (1) Vertical direction setting, the fixed plate (20) are equipped with arc groove (21), and the arc of the arc groove (21) is away from holographic thunder Up to (1) side protrusion, the side of the fixed plate (20) is equipped with rotor plate (22), and the fixed plate (20) is equipped with and is each passed through Arc groove (21) and rotor plate (22) and the fixing bolt (23) being threadedly coupled with fixture nut (24), the rotor plate (22) Upper one end far from hologram radar (1) is equipped with linkage board (25), and the linkage board (25) is parallel with the bottom surface of hologram radar (1), It is connected with fixinig plate (26) on the linkage board (25), the fixinig plate (26) is along the horizontally arranged of hologram radar (1).

3. the hologram radar mounting structure according to claim 2 for rod-shaped scaffold, it is characterised in that: the fixed plate (20) one end far from rotor plate (22) is equipped with positioning plate (27), and the bottom surface of the positioning plate (27) and hologram radar (1) is welded.

4. the hologram radar mounting structure according to claim 2 for rod-shaped scaffold, it is characterised in that: the fixed plate (20) it is equipped with the first bolt (28) across rotor plate (22), first bolt (28) passes through one end spiral shell of rotor plate (22) Line is connected with the first nut (29).

5. the hologram radar mounting structure according to claim 2 for rod-shaped scaffold, it is characterised in that: described second turn Dynamic component (3) include rotatable lamella (30) of the setting in fixinig plate (26) side, and the rotatable lamella (30) is equipped with semi-annular slot (31), the cambered surface of the semi-annular slot (31) is equipped with difference towards the side of hologram radar (1) protrusion, the rotatable lamella (30) Across the positioning bolt (32) of semi-annular slot (31) and fixinig plate (26), the positioning bolt (32) passes through the one of fixinig plate (26) End is threaded with location nut (33).

6. the hologram radar mounting structure according to claim 5 for rod-shaped scaffold, it is characterised in that: the rotatable lamella (30) it is equipped with the second bolt (34) across fixinig plate (26), second bolt (34) passes through one end spiral shell of fixinig plate (26) Line is connected with the second nut (35).

7. the hologram radar mounting structure according to claim 5 for rod-shaped scaffold, it is characterised in that: the positioning spiral shell Gasket (36) are equipped between bolt (32) and rotatable lamella (30), between fixing bolt (23) and fixed plate (20).

8. the hologram radar mounting structure according to claim 5 for rod-shaped scaffold, it is characterised in that: the rotatable lamella (30) one end far from hologram radar (1) is connected with locating plate (37), and the locating plate (37) and hologram radar (1) bottom surface are flat Row, the connecting plate (4) are equipped with several third bolts (5) for passing through locating plate (37), and the third bolt (5) passes through fixed One end of bit slice (37) is connected with third nut (6), and the both ends of the connecting plate (4) are equipped with the waist-shaped hole pair passed through for anchor ear (7), width direction of the waist-shaped hole to (7) along connecting plate (4) is arranged.

9. the hologram radar mounting structure according to claim 8 for rod-shaped scaffold, it is characterised in that: the connecting plate (4) side wall of remotely located (37) side is equipped with the rubber sheet gasket (8) for the arc being bonded with lamp stand side wall, the rubber pad Piece (8) is located at two waist-shaped holes between (7).