CN113534061A - Wide area multi-target radar installation device - Google Patents

Abstract

The invention provides a wide-area multi-target radar installation device. The wide area multi-target radar mounting device includes: the positioning holes are formed in the two sides of the surface of the main mounting seat; and one side of the extension seat is fixedly arranged on one side of the main mounting seat through a fixing bolt. The wide-area multi-target radar mounting device provided by the invention has the advantages that the elevation angle adjusting bolt can adjust the elevation angle of the multi-target radar body in the elevation angle adjusting hole and can be finely adjusted under a certain acting force, the multi-target radar is convenient to mount, the adaptability to the mounting environment is strong, the performance of the multi-target radar can be conveniently exerted to the maximum degree, the mounting device is suitable for different types of traffic road sections, the road sections of cross rods or vertical rods can be mounted, the vibration amplitude of the multi-target radar body after being impacted by hail can be reduced through the buffer structure at the bottom of the protective baffle, and the adaptability of the multi-target radar to the mounting and using environment is improved.

Description

Wide area multi-target radar installation device

Technical Field

The invention relates to the technical field of multi-target radar equipment, in particular to a wide-area multi-target radar installation device.

Background

With the rapid development of modern traffic systems, the application scenarios of radars are increasingly complicated. Radar equipment detection devices have come to be based on the development of radio, i.e. the directivity of radar detection if their specific functionality is to be maximized in a specific situation.

Conventional installation device can only simple realization equipment's installation, and the installation of some scenes can't use radar detection even to equip the target that awaits measuring of effective stable orientation, causes the unable stable orientation and the detection area of the optimal performance region of radar, and current installation device has only realized the installation, and the radar equipment after the installation does not reach radar equipment to the directive property of detection angle, causes the function of radar can not full play.

Therefore, it is necessary to provide a wide-area multi-target radar mounting apparatus to solve the above technical problems.

Disclosure of Invention

The invention provides a wide-area multi-target radar installation device, which solves the problem that the detection angle of installed radar equipment is inconvenient to adjust.

In order to solve the above technical problems, the wide area multi-target radar mounting device provided by the present invention comprises: the positioning holes are formed in the two sides of the surface of the main mounting seat; one side of the extension seat is fixedly arranged on one side of the main mounting seat through a fixing bolt, and two groups of direction adjusting holes are formed in the surface of the extension seat; the inner surface of the azimuth seat is clamped on the surface of the extension seat, and an azimuth adjusting hole is formed in the azimuth seat; an azimuth centering bolt, the surface of which is arranged between the surface of the azimuth base and the surface of the extension base, and an azimuth adjusting bolt is arranged between the surface of the azimuth adjusting hole and the extension base; the surface of the elevation seat is fixedly clamped on the outer surface of the azimuth seat, an elevation angle adjusting hole is formed in the surface of the elevation seat, and at least two connecting clamping holes are formed in the elevation seat; an elevation angle centering bolt, the surface of which is arranged between the azimuth seat and the elevation angle seat, and the surface of which is arranged between the surface of the elevation angle adjusting hole and the surface of the azimuth seat; the surface of the multi-target radar body is fixedly arranged on one side of the elevation seat through a radar mounting bolt; the connecting box, the surface of connecting box set up in the surface of multi-target radar body with between the surface of elevation angle seat, the fixed surface of connecting box is connected with two at least connection fixture blocks, two the surface of connecting the fixture block respectively with two the internal surface joint in connector hole, the bottom of connecting box is provided with adjust knob, adjust knob's top fixedly connected with regulation spiral shell axle, the top of adjusting spiral shell axle is rotated and is connected with the lifter plate, the top fixedly connected with bearing spring of lifter plate, bearing spring's top fixedly connected with buffer board, the flexible slide-shaft of top fixedly connected with of buffer board, the top fixedly connected with guard flap of flexible slide-shaft.

Preferably, the inner surface of the azimuth adjusting hole is of an arc structure, and the surface of the azimuth adjusting hole is matched with the surface of the azimuth adjusting bolt.

Preferably, the two groups of direction adjusting holes are distributed in a criss-cross mode, two direction adjusting holes are arranged in each group, and the inner surface of one direction adjusting hole is matched with the inner surface of the direction adjusting hole.

Preferably, the top end of the adjusting screw shaft penetrates through the bottom of the connection box and extends to the inside of the connection box, and the surface of the adjusting screw shaft is in threaded connection with the surface of the connection box.

Preferably, the surface of the lifting plate is slidably connected with the inner surface of the connection box, and the outer surface of the buffer plate is slidably connected with the inner surface of the connection box.

Preferably, the top end of the telescopic sliding shaft penetrates through the surface of the connection box and extends to the upper part of the connection box, and the surface of the telescopic sliding shaft is connected with the surface of the connection box in a sliding mode.

Preferably, the surface of the protective baffle is of an arc structure, and the protective baffle is located above the multi-target radar body.

Preferably, the method further comprises the following steps: the bottom of the buffer frame is fixed at the top end of the telescopic sliding shaft, a movable hole is formed in the buffer frame, a support frame is fixedly connected to the top end of the buffer frame, a limit baffle is fixedly connected to the top of the support frame, a support rotating shaft is rotatably connected to the inner surface of the support frame, a first movable plate and a second movable plate are respectively rotatably connected to the surface of the support rotating shaft, a transmission plate is fixedly connected to the bottom of the first movable plate, a transmission hole is formed in the surface of the transmission plate, a buffer spring is arranged in the movable hole, linkage sliding plates are fixedly connected to two ends of the buffer spring, a linkage shaft is fixedly connected to one side of each linkage sliding plate, one end of the linkage shaft passes through the inside of the movable hole and extends to the outside of the buffer frame, and a transmission shaft is fixedly connected to one end of the linkage shaft, the surface of the transmission shaft is in transmission connection with the inner surface of the transmission hole.

Preferably, the surface of the first movable plate and the surface of the second movable plate are symmetrically distributed, and the top of the first movable plate and the top of the second movable plate are both abutted against the bottom of the limiting baffle.

Preferably, the surfaces of the two linked sliding plates are movably connected with the inner surface of the movable hole, and the connecting structures of the sides of the two linked sliding plates far away from each other are the same.

Compared with the related art, the wide-area multi-target radar installation device provided by the invention has the following beneficial effects:

(1) the invention provides a wide-area multi-target radar installation device, when an azimuth angle centering bolt, an azimuth angle adjusting bolt, an elevation angle centering bolt and an elevation angle adjusting bolt of an installation structure of a multi-target radar body are not locked, the azimuth angle adjusting bolt can adjust the horizontal angle of the multi-target radar body in an azimuth adjusting hole, then the horizontal angle can be pre-compressed and can be finely adjusted under a certain acting force, the elevation angle adjusting bolt can adjust the elevation angle of the multi-target radar body in the elevation angle adjusting hole and can be finely adjusted under a certain acting force, the multi-target radar is convenient to install, the adaptability to an installation environment is strong, the performance of the multi-target radar can be conveniently exerted to the maximum degree, the installation structure is suitable for different types of traffic road sections, and the installation structure can be used for road sections with both cross bars and upright bars.

(2) The utility model discloses a multi-target radar body, including multi-target radar body, the connection box is connected to the hail that arouses when avoiding bad weather, the connection box is connected to the multi-target radar body, the guard flap that can cushion from top to bottom on the connection box, the convenience protects and shelters from the top of multi-target radar body, the hail that arouses when avoiding bad weather directly drops and causes damage and vibrations phenomenon by a wide margin on the surface of multi-target radar body, the adoption has buffer function's guard flap's arc surface, effectual reduction hail fall the after-collision the pressure on guard flap with, guard flap passes through the buffer structure of bottom in order to reduce the vibration range that receives multi-target radar body behind the hail striking, thereby improve multi-target radar to installation and service environment's adaptability, improve multi-target radar body's anti adverse circumstances ability.

Drawings

FIG. 1 is a schematic structural diagram of a first embodiment of a wide area multi-target radar mounting apparatus provided in the present invention;

FIG. 2 is a schematic view of the connection structure of the main mount portion shown in FIG. 1;

FIG. 3 is a schematic structural view of a portion of the junction box of FIG. 1;

FIG. 4 is an external view of the portion of the connection box shown in FIG. 3;

FIG. 5 is a schematic structural diagram of a second embodiment of the wide area multi-target radar mounting apparatus provided in the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 5;

fig. 7 is a top view of the portion of the support bracket shown in fig. 6.

Reference numbers in the figures: 1. a main mounting seat, 11, a fixed rod hole, 2, a fixing bolt, 3, an extension seat, 31, a direction adjusting hole, 4, an azimuth seat, 41, an azimuth adjusting hole, 5, an azimuth centering bolt, 51, an azimuth adjusting bolt, 6, an elevation seat, 61, an elevation adjusting hole, 62, a connecting clamp hole, 7, an elevation centering bolt, 71, an elevation adjusting bolt, 8, a radar mounting bolt, 9, a multi-target radar body, 10, a connecting box, 101, a connecting clamp block, 102, an adjusting knob, 103, an adjusting screw shaft, 104, a lifting plate, 105, a bearing spring, 106, a buffer plate, 107, a telescopic sliding shaft, 108, a protective baffle, 100, a buffer rack, 1001, a movable hole, 1002, a support rack, 1003, a limit baffle, 1004, a support rotating shaft, 1005, a first movable plate, a second movable plate, 1007, a transmission plate, 1008, a transmission hole, 200, 1006, a buffer spring, 2001, a linkage sliding plate, 2002. universal driving shaft, 2003, transmission shaft.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

The first embodiment:

please refer to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, wherein fig. 1 is a schematic structural diagram of a first embodiment of a wide-area multi-target radar installation apparatus provided in the present invention; FIG. 2 is a schematic view of the connection structure of the main mount portion shown in FIG. 1; FIG. 3 is a schematic structural view of a portion of the junction box of FIG. 1; fig. 4 is an external view of the portion of the junction box shown in fig. 3.

A wide area multi-target radar mounting apparatus includes: the mounting structure comprises a main mounting seat 1, wherein positioning holes 11 are formed in two sides of the surface of the main mounting seat 1; one side of the extension seat 3 is fixedly installed on one side of the main installation seat 1 through a fixing bolt 2, and two groups of direction adjusting holes 31 are formed in the surface of the extension seat 3; the inner surface of the orientation seat 4 is clamped on the surface of the extension seat 3, and the orientation seat 4 is provided with an orientation adjusting hole 41; an azimuth centering bolt 5, a surface of the azimuth centering bolt 5 being disposed between a surface of the azimuth base 4 and a surface of the extension base 3, and an azimuth adjusting bolt 51 being disposed between a surface of the azimuth adjusting hole 41 and the extension base 3; the surface of the elevation seat 6 is fixedly clamped on the outer surface of the azimuth seat 4, an elevation angle adjusting hole 61 is formed in the surface of the elevation seat 6, and at least two connecting clamping holes 62 are formed in the elevation seat 6; an elevation angle centering bolt 7, a surface of the elevation angle centering bolt 7 being disposed between the azimuth base 4 and the elevation angle base 6, and an elevation angle adjusting bolt 71 being disposed between a surface of the elevation angle adjusting hole 61 and a surface of the azimuth base 4; the multi-target radar body 9 is characterized in that the surface of the multi-target radar body 9 is fixedly arranged on one side of the elevation seat 6 through a radar mounting bolt 8; connection box 10, the surface of connection box 10 set up in the surface of multi-target radar body 9 with between the surface of elevation seat 6, the outer fixed surface of connection box 10 is connected with two at least connection fixture blocks 101, two the surface of connecting fixture block 101 respectively with two connect the internal surface joint in joint card hole 62, the bottom of connection box 10 is provided with adjust knob 102, adjust knob 102's top fixedly connected with adjusts spiral shell axle 103, the top of adjusting spiral shell axle 103 is rotated and is connected with lifter plate 104, the top fixedly connected with bearing spring 105 of lifter plate 104, bearing spring 105's top fixedly connected with buffer board 106, the flexible sliding shaft 107 of top fixedly connected with of buffer board 106, the top fixedly connected with guard flap 108 of flexible sliding shaft 107.

The multi-target radar body 9 is arranged on the elevation seat 6, and the multi-target radar body 9 is arranged on the elevation seat 6 through the radar mounting bolt 8 and a nut structure carried by the radar mounting bolt;

the elevation seat 6 is arranged on the azimuth seat 4, and the elevation seat 6 and the azimuth seat 4 are fixed through an elevation adjusting bolt 71 and a nut structure carried by the elevation adjusting bolt, an elevation centering bolt 7 and a nut structure carried by the elevation centering bolt;

the azimuth base 4 is arranged on the extension base 3, and the azimuth base 4 and the extension base 3 are fixed through an azimuth centering bolt 5 and a nut structure carried by the azimuth centering bolt, and an azimuth adjusting bolt 51 and a nut structure carried by the azimuth adjusting bolt;

the extension base 3 is installed on the main installation base 1, and the extension base 3 and the main installation base 1 are fixed through a fixing bolt 14.

When the azimuth angle centering bolt 5, the azimuth angle adjusting bolt 51, the elevation angle centering bolt 7 and the elevation angle adjusting bolt 71 of the mounting structure of the multi-target radar body 9 are in an unlocked state, the azimuth angle adjusting bolt 51 can adjust the horizontal angle of the multi-target radar body 9 in the azimuth adjusting hole 41, then the horizontal angle is compressed in advance and can be finely adjusted under a certain acting force, and the elevation angle adjusting bolt 71 can adjust the pitch angle of the multi-target radar body 9 in the elevation angle adjusting hole 61 and can be finely adjusted under a certain acting force.

The simple to operate of multi-target radar, strong adaptability to the installation environment, in order to make things convenient for the at utmost to exert multi-target radar performance, be applicable to the traffic highway section of different grade type, no matter be the highway section of horizontal pole or pole setting all can install, in the real road conditions, because capital construction equipment is different, the pole setting condition is respectively different, the pole setting has the horizontal pole a bit, still have the surplus space above the horizontal pole, can also install above the horizontal pole under such circumstances, special situation does not have the unable erection equipment of installation space on the horizontal pole a bit, just need install on the montant.

There is connecting box 10 through movable mounting between the surface at multi-target radar body 9 and the surface of angle of elevation seat 6, the fender 108 of buffering about can on connecting box 10, the convenience is protected and is sheltered from multi-target radar body 9's top, the hail that arouses when avoiding bad weather directly drops and causes damage and vibrations phenomenon by a wide margin on multi-target radar body 9's surface, adopt the arc surface of fender 108 that has buffer function, the effectual pressure that reduces the hail and bump on fender 108 after falling is with, fender 108 is through the buffer structure of bottom in order to reduce the vibrations range that receives multi-target radar body 9 behind the hail striking, thereby improve multi-target radar to installation and service environment's adaptability, improve multi-target radar body 9's anti adverse circumstances ability.

The inner surface of the azimuth adjustment hole 41 has an arc-shaped structure, and the surface of the azimuth adjustment hole 41 is matched with the surface of the azimuth adjustment bolt 51.

The two groups of direction adjusting holes 31 are distributed in a criss-cross mode, two direction adjusting holes 31 are arranged in each group, and the inner surface of one direction adjusting hole 31 is matched with the inner surface of the direction adjusting hole 41.

Two sets of accent to hole 31 criss-cross distribution makes things convenient for between azimuth seat 4 and the extension seat 3 transverse connection or longitudinal connection to adapt to different installation environment, two accent in every group hole 31 correspond azimuth centering bolt 5 and azimuth adjusting bolt 51 respectively, and the position of azimuth adjusting bolt 51 corresponds the surface of azimuth adjusting hole 41, makes things convenient for azimuth seat 4 to carry out horizontal rotation regulation through azimuth centering bolt 5 on the surface of extension seat 3.

The top end of the adjusting screw shaft 103 penetrates through the bottom of the connection box 10 and extends to the inside of the connection box 10, and the surface of the adjusting screw shaft 103 is in threaded connection with the surface of the connection box 10.

The bottom plate of connecting box 10 is provided with adjusts spiral shell axle 103, conveniently drives through adjust knob 102 and adjusts spiral shell axle 103 and rotate the regulation:

when the adjusting screw shaft 103 rotates forwards, the adjusting screw shaft 103 pushes the lifting plate 104 above to move upwards synchronously for adjustment, the lifting plate 104 drives the buffer plate 106 to move upwards synchronously for adjustment through the bearing spring 105, and the buffer plate 106 drives the protective baffle 108 to move upwards for adjustment through the telescopic sliding shaft 107, so that the gap between the surface of the protective baffle 108 and the surface of the multi-target radar body 9 is increased, and the installation and the debugging of equipment are facilitated;

similarly, when adjusting the screw axis 103 reversal, guard 108 moves down and adjusts for guard 108's use height reduces, reduces guard 108's home range, makes the clearance reduce between guard 108 and the surface of multi-target radar body 9, stability when guarantee guard 108 uses.

The surface of the lifting plate 104 is slidably connected to the inner surface of the connection box 10, and the outer surface of the buffer plate 106 is slidably connected to the inner surface of the connection box 10.

The bearing spring 105 is located between the lifting plate 104 and the buffer plate 106, and the bearing spring 105 provides buffer elastic force for the lifting and sliding of the buffer plate 106, so that the stability of the lifting and sliding of the buffer plate 106 is guaranteed.

The top end of the telescopic sliding shaft 107 penetrates through the surface of the connection box 10 and extends to the upper part of the connection box 10, and the surface of the telescopic sliding shaft 107 is connected with the surface of the connection box 10 in a sliding way.

The telescopic sliding shafts 107 are at least provided with two groups, and the two groups of telescopic sliding shafts 107 are distributed in parallel to guarantee the connection stability of the protective baffle 108.

The surface of the guard 108 is of an arc-shaped structure, and the guard 108 is located above the multi-target radar body 9.

The surface of the protective baffle 108 is of an arc-shaped structure, so that rain, snow and hail above the protective baffle can fall down freely.

The working principle of the wide-area multi-target radar installation device provided by the invention is as follows:

a. adjusting the azimuth angle, namely loosening the azimuth angle centering bolt 5 and the azimuth angle adjusting bolt 51 in advance to a state that the azimuth angle can be easily adjusted, adjusting the approximate range of the multi-target radar azimuth angle design value, then locking the azimuth angle centering bolt 5 and the azimuth angle adjusting bolt 51 in advance to slightly adjust the azimuth angle of the multi-target radar body 9, and adjusting the pitch angle after the adjustment is accurate;

b. adjusting the pitch angle, namely loosening the elevation angle adjusting bolt 71 and the elevation angle centering bolt 7 in advance to a state that the pitch angle can be easily adjusted, then adjusting the pitch angle to be within the approximate range of the design value of the pitch angle of the multi-target radar body 9, locking the elevation angle adjusting bolt 71 and the elevation angle centering bolt 7 but slightly adjusting the pitch angle, and finely adjusting the pitch angle to the required pitch angle;

c. the azimuth centering bolt 5 is locked with the azimuth adjusting bolt 51, and the elevation adjusting bolt 71 is locked with the elevation centering bolt 7.

Compared with the related art, the wide-area multi-target radar installation device provided by the invention has the following beneficial effects:

when the azimuth angle centering bolt 5, the azimuth angle adjusting bolt 51, the elevation angle centering bolt 7 and the elevation angle adjusting bolt 71 of the mounting structure of the multi-target radar body 9 are in an unlocked state, the azimuth angle adjusting bolt 51 can adjust the horizontal angle of the multi-target radar body 9 in the azimuth adjusting hole 41, then the multi-target radar body is compressed in advance and can be finely adjusted under a certain acting force, the elevation angle adjusting bolt 71 can adjust the pitch angle of the multi-target radar body 9 in the elevation angle adjusting hole 61 and can be finely adjusted under a certain acting force, the multi-target radar is convenient to mount, the mounting environment is strong in adaptability, the multi-target radar performance can be conveniently exerted to the maximum degree, the mounting structure is suitable for different types of traffic road sections, and the mounting structure can be mounted on the road sections of a cross bar or a vertical bar.

There is connecting box 10 through movable mounting between the surface at multi-target radar body 9 and the surface of angle of elevation seat 6, the fender 108 of buffering about can on connecting box 10, the convenience is protected and is sheltered from multi-target radar body 9's top, the hail that arouses when avoiding bad weather directly drops and causes damage and vibrations phenomenon by a wide margin on multi-target radar body 9's surface, adopt the arc surface of fender 108 that has buffer function, the effectual pressure that reduces the hail and bump on fender 108 after falling is with, fender 108 is through the buffer structure of bottom in order to reduce the vibrations range that receives multi-target radar body 9 behind the hail striking, thereby improve multi-target radar to installation and service environment's adaptability, improve multi-target radar body 9's anti adverse circumstances ability.

Second embodiment:

referring to fig. 5, 6 and 7, based on the installation apparatus for wide-area multi-target radar provided in the first embodiment of the present application, a second embodiment of the present application provides another installation apparatus for wide-area multi-target radar. The second embodiment is only the preferred mode of the first embodiment, and the implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, a wide area multi-target radar mounting device provided in a second embodiment of the present application is different in that the wide area multi-target radar mounting device further includes: the bottom of the buffer frame 100 is fixed at the top end of the telescopic sliding shaft 107, a movable hole 1001 is formed in the buffer frame 100, a support frame 1002 is fixedly connected at the top end of the buffer frame 100, a limit baffle 1003 is fixedly connected at the top of the support frame 1002, a support rotating shaft 1004 is rotatably connected to the inner surface of the support frame 1002, a first movable plate 1005 and a second movable plate 1006 are respectively rotatably connected to the surface of the support rotating shaft 1004, a transmission plate 1007 is fixedly connected to the bottom of the first movable plate 1005, a transmission hole 1008 is formed in the surface of the transmission plate 1007, a buffer spring 200 is arranged in the movable hole 1001, a linkage sliding plate 2001 is fixedly connected to both ends of the buffer spring 200, a linkage shaft 2002 is fixedly connected to one side of the linkage sliding plate 2001, and one end of the linkage shaft 2002 extends to the outside of the buffer frame 100 through the inside of the movable hole 1001, one end of the linkage shaft 2002 is fixedly connected with a transmission shaft 2003, and the surface of the transmission shaft 2003 is in transmission connection with the inner surface of the transmission hole 1008.

The surface of the first movable plate 1005 and the surface of the second movable plate 1006 are symmetrically distributed, and both the top of the first movable plate 1005 and the top of the second movable plate 1006 abut against the bottom of the limit baffle 1003.

The surfaces of the two sliding linkage plates 2001 are movably connected to the inner surface of the movable hole 1001, and the connection structure of the sides of the two sliding linkage plates 2001 which are away from each other is the same.

Through first fly leaf 1005 and the second fly leaf 1006 that improve solitary fender 108 into two rotating-structure, the top of first fly leaf 1005 or second fly leaf 1006 is when piling up sleet or hail, use first fly leaf 1005 as an example, first fly leaf 1005 rotates on the surface of support pivot 1004 after being pressed, inclination gradually increases when first fly leaf 1005 rotates downwards for the deposit on it is changeed landing downwards and is dropped, a large amount of snow when effectual avoiding the stormy weather is piled up in fender 108's top and influence fender 108's normal use.

The first movable plate 1005 and the second movable plate 1006 have the same rotating structure and the same bottom transmission structure, and are respectively connected to the outer sides of the two linked sliding plates 2001 and symmetrically distributed, so as to ensure the stability of independent rotation of the first movable plate 1005 and the second movable plate 1006, and facilitate downward rotation of the movable plate on a single side when being pressed.

Taking the first movable plate 1005 under pressure as an example: when serious snow is accumulated on the top of the first movable plate 1005, the first movable plate 1005 rotates downwards under the action of the gravity of the snow, the linkage shaft 2002 is pushed by the surface of the transmission shaft 2003 through the transmission hole 1008 on the transmission plate 1007 to synchronously contract towards the inside of the movable hole 1001 when the first movable plate 1005 rotates, the linkage sliding plate 2001 is synchronously pushed to slide when the linkage shaft 2002 contracts, and the buffer spring 200 is compressed when the linkage sliding plate 2001 moves, so that the buffer spring 200 is in a compressed state;

when the first movable plate 1005 rotates downward, the inclination angle is gradually increased, so that the deposits on the first movable plate 1005 can slide down and fall down more conveniently, the surfaces of the first movable plate 1005 and the second movable plate 1006 are matched with the surface of the multi-target radar body 9, and when the first movable plate 1005 or the second movable plate 1006 rotates, the accumulated snow on the first movable plate 1005 or the second movable plate 1006 cannot fall above the multi-target radar body 9 and can fall down through two sides of the multi-target radar body 9.

The first flap 1005 and the second flap 1006 turn in the same manner and principle.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A wide area multi-target radar mounting apparatus, comprising:

the positioning holes are formed in the two sides of the surface of the main mounting seat;

one side of the extension seat is fixedly arranged on one side of the main mounting seat through a fixing bolt, and two groups of direction adjusting holes are formed in the surface of the extension seat;

the inner surface of the azimuth seat is clamped on the surface of the extension seat, and an azimuth adjusting hole is formed in the azimuth seat;

an azimuth centering bolt, the surface of which is arranged between the surface of the azimuth base and the surface of the extension base, and an azimuth adjusting bolt is arranged between the surface of the azimuth adjusting hole and the extension base;

the surface of the elevation seat is fixedly clamped on the outer surface of the azimuth seat, an elevation angle adjusting hole is formed in the surface of the elevation seat, and at least two connecting clamping holes are formed in the elevation seat;

an elevation angle centering bolt, the surface of which is arranged between the azimuth seat and the elevation angle seat, and the surface of which is arranged between the surface of the elevation angle adjusting hole and the surface of the azimuth seat;

the surface of the multi-target radar body is fixedly arranged on one side of the elevation seat through a radar mounting bolt;

the connecting box, the surface of connecting box set up in the surface of multi-target radar body with between the surface of elevation angle seat, the fixed surface of connecting box is connected with two at least connection fixture blocks, two the surface of connecting the fixture block respectively with two the internal surface joint in connector hole, the bottom of connecting box is provided with adjust knob, adjust knob's top fixedly connected with regulation spiral shell axle, the top of adjusting spiral shell axle is rotated and is connected with the lifter plate, the top fixedly connected with bearing spring of lifter plate, bearing spring's top fixedly connected with buffer board, the flexible slide-shaft of top fixedly connected with of buffer board, the top fixedly connected with guard flap of flexible slide-shaft.

2. The wide area multi-object radar mounting arrangement of claim 1, wherein the inner surface of the azimuth adjustment hole is of arcuate configuration and the surface of the azimuth adjustment hole conforms to the surface of the azimuth adjustment bolt.

3. The wide area multi-object radar mounting apparatus of claim 1, wherein two sets of direction-adjusting holes are distributed in a criss-cross manner, and two direction-adjusting holes are provided in each set, wherein an inner surface of one of the direction-adjusting holes is adapted to an inner surface of the azimuth-adjusting hole.

4. The wide area multi-object radar mounting arrangement of claim 1, wherein a top end of the adjustment screw shaft extends through a bottom of the connection box and into an interior of the connection box, a surface of the adjustment screw shaft being threadedly coupled with a surface of the connection box.

5. The wide area multi-object radar mounting arrangement of claim 1, wherein a surface of the lifter plate is slidably coupled to an inner surface of the junction box, and an outer surface of the bumper plate is slidably coupled to the inner surface of the junction box.

6. The wide area multi-object radar mounting arrangement of claim 1, wherein the top end of the telescoping slide shaft extends through and above a surface of the junction box, the surface of the telescoping slide shaft being in sliding connection with the surface of the junction box.

7. The wide area multi-target radar mounting arrangement of claim 1, wherein the surface of the guard is of arcuate configuration and the guard is located above the multi-target radar body.

8. The wide area multi-object radar mounting arrangement of claim 1, further comprising: the bottom of the buffer frame is fixed at the top end of the telescopic sliding shaft, a movable hole is formed in the buffer frame, a support frame is fixedly connected to the top end of the buffer frame, a limit baffle is fixedly connected to the top of the support frame, a support rotating shaft is rotatably connected to the inner surface of the support frame, a first movable plate and a second movable plate are respectively rotatably connected to the surface of the support rotating shaft, a transmission plate is fixedly connected to the bottom of the first movable plate, a transmission hole is formed in the surface of the transmission plate, a buffer spring is arranged in the movable hole, linkage sliding plates are fixedly connected to two ends of the buffer spring, a linkage shaft is fixedly connected to one side of each linkage sliding plate, one end of the linkage shaft passes through the inside of the movable hole and extends to the outside of the buffer frame, and a transmission shaft is fixedly connected to one end of the linkage shaft, the surface of the transmission shaft is in transmission connection with the inner surface of the transmission hole.

9. The wide area multi-object radar mounting apparatus of claim 8, wherein the surfaces of the first movable plate and the second movable plate are symmetrically distributed, and the top of the first movable plate and the top of the second movable plate both abut against the bottom of the limiting baffle.

10. The wide area multi-object radar mounting apparatus of claim 8, wherein the surfaces of both said ganged slides are movably connected to the inner surface of the movable hole, and the connection structure of the sides of both ganged slides remote from each other is the same.

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