CN212364570U

CN212364570U - Movable radar communication extension detection device

Info

Publication number: CN212364570U
Application number: CN202021033747.4U
Authority: CN
Inventors: 夏明飞; 韩宁; 甄红涛; 王天; 樊浩; 郭宝锋; 史林; 朱晓秀; 高润冬
Original assignee: 32181 Troops of PLA
Current assignee: 32181 Troops of PLA
Priority date: 2020-06-08
Filing date: 2020-06-08
Publication date: 2021-01-15
Anticipated expiration: 2030-06-08

Abstract

The utility model relates to a movable radar communication extension detection device, which comprises a head support, a head driving device arranged on the head support, and a fan blade type radar arranged on the head driving device; after the fan blade type radars are opened, the side edges of the adjacent fan blade type radars are spliced after contacting; the head driving device comprises a head rotating seat arranged on the head support, a head rotating shaft vertically arranged on the head rotating seat, a head and neck rotating sleeve arranged on the upper part of the head rotating shaft, a head top cap receiver arranged at the top of the head rotating shaft, a head bottom driving piece arranged on the head and neck rotating sleeve, a head radar framework with one end hinged with the outer side wall of the head and neck rotating sleeve, a head middle sliding seat arranged on the head rotating shaft in a sliding manner, and a head body driving rod arranged between the head bottom driving piece and the head middle sliding seat; the utility model relates to a rationally, compact structure and convenient to use.

Description

Movable radar communication extension detection device

Technical Field

The utility model relates to a movable radar communication extension detection device.

Background

At present, radar antenna structure is various, generally has pot cover form, matrix form and common structures such as honeycomb, but it is overall structure generally, and the installation is inconvenient, when circuit or structure go wrong, needs whole antenna device all to repair, and the dismouting is inconvenient, and the maintenance is inconvenient. The utility model discloses creative adoption module type structure can realize when not using, contracts, and the modularization equipment is convenient fast, the maintenance of being convenient for.

Radar is developed by bats and is used to find objects and determine their spatial position by radio. Therefore, radar is also referred to as "radiolocation". Radars are electronic devices that detect objects using electromagnetic waves. The radar emits electromagnetic waves to irradiate a target and receives the echo of the target, so that information such as the distance from the target to an electromagnetic wave emission point, the distance change rate (radial speed), the azimuth and the altitude is obtained. The radar frame occupies a great position in the use process of the radar, and the movable multi-angle rotating bearing radar support frame is designed, so that the radar can be conveniently contracted, angularly adjusted and adjusted in height.

In addition, the microwave is a radio wave with a short wavelength, the directivity of the microwave is good, the speed is equal to the light speed, the microwave is reflected back when encountering a vehicle and then is received by a radar speedometer, and once the detection range can be expanded by changing the direction of the microwave within a time of tens of ten-thousandth of seconds, so that the multi-angle radar loading box moving support frame is designed.

Along with the development and progress of the society, various detection devices are diversified, radar detection obviously becomes the mainstream of the detection devices, when the radar device is applied and installed, a few auxiliary devices are omitted, and among a plurality of auxiliary devices, the support frame plays a great role. Military radars need to have some concealment to avoid detection by enemies.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a movable radar communication extension detection device and installation, control method are provided overall.

In order to solve the above problems, the utility model adopts the following technical proposal:

a movable radar communication extension detection device comprises a radar head device, a movable radar communication extension detection device and a control device, wherein the radar head device comprises a head support, a head driving device installed on the head support, and a fan blade type radar installed on the head driving device; after the fan blade type radars are opened, the side edges of the adjacent fan blade type radars are spliced after contacting;

the head driving device comprises a head rotating seat arranged on a head support, a head rotating shaft vertically arranged on the head rotating seat, a head and neck rotating sleeve arranged on the upper part of the head rotating shaft, a head top cap receiver arranged at the top of the head rotating shaft, a head bottom driving piece arranged on the head and neck rotating sleeve, a head radar framework with one end hinged with the outer side wall of the head and neck rotating sleeve, a head middle sliding seat arranged on the head rotating shaft in a sliding way, a head body driving rod arranged between the head bottom driving piece and the head middle sliding seat, and a head linkage side rod hinged between the other end of the head radar framework and the outer side wall of the head middle sliding seat; the head radar framework is positioned at the back side of the corresponding fan blade type radar.

As a further improvement of the above technical solution:

and a radar supporting device in a cave or culvert is arranged at the lower end of the radar head device.

The utility model discloses a modularization radar antenna structure realizes quick installation dismantlement, has greatly reduced the maintenance cost, simple to operate, the utility model discloses creative adoption module type structure when can realizing not using, contracts, and the modularization equipment is convenient fast, and the maintenance of being convenient for is through rotary drive.

The utility model discloses a multiunit driving piece (screw rod, pneumatic cylinder etc.) realizes that radar antenna's support installation chassis sends out to improve radar antenna's transport distance, compared in traditional disguised radar, it can be when meetting enemy investigation. In bad natural weather, the telescopic robot can be retracted and hidden in a cave or driven to extend out, and dead points can be effectively avoided through multi-joint design.

The utility model relates to a rationally, low cost, durable, safe and reliable, easy operation, labour saving and time saving, saving fund, compact structure and convenient to use.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the antenna device of the present invention.

Fig. 3 is a schematic structural diagram of the radar supporting device in use state of the present invention.

Fig. 4 is a schematic structural diagram of the radar supporting device of the present invention.

Fig. 5 is a schematic view of a partial structure of the radar supporting device of the present invention.

Wherein: 1. a radar support device; 2. a radar head unit; 3. assembling a support frame; 4. supporting the lifting top frame; 5. supporting the lifting drive member; 6. a support hinged swing rod; 7. supporting the auxiliary swing arm; 8. supporting the intermediate link; 9. supporting the mounting chassis; 10. supporting the rear inclined pull driving piece; 11. supporting a front diagonal draw device; 12. supporting the rear push longitudinal driving member; 13. supporting a rear bracket; 14. supporting a rear U-shaped guide rail; 15. a rear longitudinal guide groove is supported; 16. supporting the rear clamping groove; 17. supporting the rear brake driving member; 18. supporting the rear n-type card seat; 19. supporting the rear guide bar; 20. supporting the lower sliding sleeve; 21. supporting the top drive member; 22. supporting an I-shaped guide seat; 23. supporting a top screw; 24. supporting the top long groove; 25. supporting the wedge pad; 26. a support pad screw hole; 27. supporting the top slot hole; 28. supporting the front U-shaped groove; 29. supporting the front driving piece; 30. supporting the front guide groove; 31. supporting the front pull drive member; 32. supporting the front guide bar; 33. supporting a front support; 34. supporting the front n-type card seat; 35. a head support; 36. a head driving device; 37. a fan blade radar; 38. a head rotating base; 39. a head rotating shaft; 40. an overhead cap receiver; 41. a head and neck rotation sleeve; 42. a head bottom driving member; 43. a head-body drive rod; 44. a head middle slide; 45. a head linkage side lever; 46. head radar skeleton.

Detailed Description

As shown in fig. 1 to 5, the mobile radar extension communication detection apparatus of the present embodiment includes a radar head apparatus 2, which includes a head support 35, a head driving apparatus 36 mounted on the head support 35, and a fan blade type radar 37 mounted on the head driving apparatus 36; after the fan blade type radars 37 are opened, the side edges of the adjacent fan blade type radars 37 are spliced after contacting; radar head device 2 is installed on supporting the installation chassis through head support 35, head drive arrangement 36 realizes opening or closed operation, realize that rotation operation catches the signal simultaneously, fan blade formula radar 37 scans, head roating seat 38 is the rotary mechanism commonly used, head rotation axis 39 realizes direction and atress effect for the main tributary props, head top cap receiver 40 can carry out signal reception, thereby head neck portion swivel housing 41 realizes free rotation through the bearing, head bottom driving piece 42 is general parts such as push rod or pneumatic cylinder, head body actuating lever 43 can be fixed or flexible, head middle part slide 44 free activity, head linkage side lever 45 realizes the tractive, head radar skeleton 46 realizes supporting.

The head driving device 36 comprises a head rotating seat 38 arranged on the head support 35, a head rotating shaft 39 vertically arranged on the head rotating seat 38, a head and neck rotating sleeve 41 arranged on the upper part of the head rotating shaft 39, a head top cap receiver 40 arranged on the top of the head rotating shaft 39, a head bottom driving piece 42 arranged on the head and neck rotating sleeve 41, a head radar framework 46 with one end hinged with the outer side wall of the head and neck rotating sleeve 41, a head middle sliding seat 44 arranged on the head rotating shaft 39 in a sliding way, a head body driving rod 43 arranged between the head bottom driving piece 42 and the head middle sliding seat 44, and a head linkage side rod 45 hinged between the other end of the head radar framework 46 and the outer side wall of the head middle sliding seat 44; a head radar skeleton 46 is located on the back side of the corresponding fan blade radar 37.

A radar support device 1 in a cave or culvert is mounted at the lower end of the radar head device 2.

The installation method of the movable radar communication extension detection device of the embodiment comprises the following steps that firstly, a radar supporting device 1 is installed in a cave or a culvert; then, mounting a radar head device 2 on the radar support device 1;

in a method of installing a radar support device 1 in a cave or culvert, the method comprises the following installation steps: firstly, constructing a cave for storing and working radar at the waist or the top of a mountain; then, a support frame assembly 3, a hydraulic pump station and a generator set are installed on the ground of the cave; secondly, a supporting lifting driving piece 5 is arranged on the supporting frame assembly 3; thirdly, mounting a supporting lifting top frame 4 on the supporting lifting driving piece 5; then, a supporting auxiliary swing arm 7, a supporting middle connecting rod 8 and a supporting hinged swing rod 6 are sequentially arranged between the supporting lifting top frame 4 and the supporting frame assembly 3; next, a support mounting chassis 9 is arranged between the support middle connecting rods 8; and finally, a rear supporting inclined pulling device and a front supporting inclined pulling device 11 are arranged between the supporting hinged swing rod 6 and the supporting frame assembly 3.

In the step of mounting the rear support diagonal draw means, firstly, a rear support U-shaped guide rail 14 with a rear support longitudinal guide groove 15 is mounted on the support frame assembly 3; then, the supporting rear pushing and longitudinal driving piece 12 is placed in the supporting rear U-shaped guide rail 14, a supporting rear guide rod 19 is installed on the supporting rear pushing and longitudinal driving piece, and two ends of the supporting rear guide rod 19 longitudinally roll in the supporting rear longitudinal guide groove 15; thirdly, a rear supporting bracket 13 is arranged at the tail part of the rear supporting pushing driving piece 12; next, a rear brake driving piece 17 is supported on the rear support bracket 13 in an inverted mode, and a rear support n-shaped clamping seat 18 which is downwards inserted into the rear support clamping groove 16 is installed at the lower end of the rear support brake driving piece 17; next, the position of the pre-installed supporting lower sliding sleeve 20 on the supporting hinged swing rod 6 is adjusted, and the supporting lower sliding sleeve 20 is connected with the supporting rear pushing longitudinal driving element 12 through the supporting rear cable-stayed driving element 10.

In the step of installing the supporting auxiliary swing arm 7, firstly, a supporting top slot hole 27 is longitudinally processed on the supporting lifting top frame 4, and a supporting top slot 24 is placed in the supporting top slot hole 27; then, a supporting top driving piece 21 is longitudinally arranged on the supporting lifting top frame 4, and the supporting top driving piece 21 is connected with the supporting auxiliary swing arm 7; secondly, after the radar supporting device 1 is adjusted to the designated position, inserting the supporting wedge pad 25 between the upper end of the supporting I-shaped guide seat 22 and the supporting lifting top frame 4, and selecting the thickness of the supporting wedge pad 25 according to the gap; again, the support wedge pad 25 is connected to the support i-guide 22 by the support jack screw 23.

In the method of mounting the radar head device 2 on the radar supporting device 1, the mounting method includes the steps of, first, mounting the head drive device 36 on the head mount 35; then, the fan blade radar 37 is attached to the head drive device 36.

Further, the step of mounting the head drive device 36 includes, first, mounting the head rotary base 38 on the head support 35, and mounting the head rotary shaft 39 on the head rotary base 38; then, a mounting head bottom driving member 42 is fitted around the bottom of the head rotating shaft 39; next, a head middle slider 44 is fitted over the head rotation shaft 39, and a head body drive lever 43 is mounted between the head middle slider 44 and the head bottom driving member 42; thirdly, the head and neck rotating sleeve 41 is sleeved on the upper part of the head bottom driving piece 42 and is arranged on the head top cap receiver 40; then, a head radar framework 46 is connected on the head and neck rotary sleeve 41, and a head linkage side rod 45 is connected on the head middle sliding seat 44; next, hinging the head radar framework 46 with the end part of the head linkage side rod 45; and then, the fan blade type radar 37 is installed on the head linkage side rod 45, and splicing of the opened fan blade type radar 37 is guaranteed.

The control method of the movable radar communication extension detection device of the embodiment is characterized in that by means of the movable radar communication extension detection device, firstly, a radar support control method is executed; then, a radar antenna control method is executed;

the radar support control method comprises the following steps; firstly, a supporting lifting driving piece 5 lifts a supporting lifting top frame 4, a supporting front n-shaped clamping seat 34 is separated from a supporting front clamping groove, meanwhile, a supporting rear n-shaped clamping seat 18 is separated from a supporting rear clamping groove 16, a supporting rear diagonal pulling driving piece 10 longitudinally slides in a supporting rear longitudinal guide groove 15 through a supporting rear guide rod 19, and a supporting front guide rod 32 longitudinally slides in a supporting front guide groove 30, so that the supporting front pulling driving piece 31 and the supporting rear pushing longitudinal driving piece 12 move forwards; then, when the supporting lifting driving piece 5 is locked after being lifted to the stroke position, the supported n-shaped clamping seat 18 is inserted into the supported clamping groove 16, the supported diagonal pulling driving piece 10 drives the supporting hinged swing rod 6 to swing forwards until reaching the stroke position, and meanwhile, the supporting front pulling driving piece 31 extends to the stroke position; secondly, the front n-type clamping seat 34 is engaged with the front clamping groove, and meanwhile, the rear n-type clamping seat 18 is separated from the rear clamping groove 16; thirdly, the supporting front-pull driving piece 31 retracts to the stroke position, so that the supporting installation chassis 9 is driven to swing forwards to a preset position, and meanwhile, the lateral swing angle of the supporting installation chassis 9 is adjusted by utilizing the different expansion and contraction amounts of the supporting front-pull driving pieces 31 on the two sides; next, the post-support n-clamp 18 is inserted into the post-support clamp slot 16.

Wherein, the pump station drives the support hinged swing rod 6, the support auxiliary swing arm 7 or the support intermediate connecting rod 8 to extend and retract, and the pump station drives the dead point of the mounting chassis 9 to swing forwards;

when further forward swing is required, firstly, the supporting top screw 23 is loosened, and the supporting wedge pad 25 is taken out; then, the supporting and mounting chassis 9 is swung forwards to a preset position by extending the supporting and ejecting driving piece 21; next, the supporting wedge pad 25 is reinserted and the supporting top screw 23 is locked.

Executing a radar antenna control method; the method comprises the following steps that firstly, a head middle sliding seat 44 is driven to move upwards to a set position through the extension of a head bottom driving part 42, a head linkage side rod 45 enables the fan blade type radar 37 to be assembled through a head radar framework 46, and the fan blade type radar 37 is driven to rotate and work through a head rotating seat 38.

As a partial description, in the radar supporting device of this embodiment, the radar supporting device 1 includes a supporting frame assembly 3, a supporting lifting driving member 5 disposed on the supporting frame assembly 3, a supporting lifting top frame 4 disposed on the supporting lifting driving member 5, two supporting hinged swing rods 6 whose lower feet are hinged on the supporting frame assembly 3, two supporting auxiliary swing arms 7 whose upper heads are movably connected to the lower surface of the supporting lifting top frame 4, two supporting middle connecting rods 8 whose two ends are hinged between the corresponding supporting hinged swing rods 6 and the supporting auxiliary swing arms 7, a supporting mounting chassis 9 whose two sides are hinged with the corresponding supporting middle connecting rods 8 and used for mounting a radar antenna, and a supporting rear diagonal drawing device and/or a supporting front diagonal drawing device 11 whose lower root is movably connected on the supporting frame assembly 3;

the upper head part of the supporting rear inclined pulling device and/or the supporting front inclined pulling device 11 is hinged with the supporting hinged swing rod 6, the supporting auxiliary swing arm 7 or the supporting middle connecting rod 8.

The rear supporting inclined pulling device comprises a rear supporting U-shaped guide rail 14 longitudinally arranged on the supporting rack assembly 3, a rear supporting longitudinal guide groove 15 arranged on a side vertical plate of the rear supporting U-shaped guide rail 14, rear supporting clamping grooves 16 distributed on a bottom plate of the rear supporting U-shaped guide rail 14, a rear supporting pushing longitudinal driving piece 12 positioned in the rear supporting U-shaped guide rail 14, a rear supporting bracket 13 arranged at the rear end of the rear supporting pushing longitudinal driving piece 12, a rear supporting braking driving piece 17 vertically arranged on the rear supporting bracket 13, a rear supporting n-shaped clamping seat 18 arranged at the lower end of the rear supporting braking driving piece 17 and used for being inserted into the rear supporting clamping groove 16, a rear supporting guide rod 19 arranged on a movable rod of the rear supporting pushing longitudinal driving piece 12 and longitudinally sliding in the rear supporting longitudinal guide groove 15, a rear supporting inclined pulling driving piece 10 with a lower foot hinged at the end of the movable rod of the rear supporting longitudinal driving piece 12, and an outer side wall hinged with the upper end of the rear supporting inclined pulling driving piece 10 and sleeved on, A lower support sliding sleeve 20 supporting the auxiliary swing arm 7 or the middle connecting rod 8; the support hinged swing rod 6, the support auxiliary swing arm 7 or the support intermediate connecting rod 8 is a telescopic rod or a fixed rod.

The front supporting diagonal draw device 11 and the rear supporting diagonal draw device have the same structure; which comprises a front supporting U-shaped groove 28 longitudinally arranged on a supporting frame assembly 3, a front supporting guide groove 30 arranged on a side vertical plate of the front supporting U-shaped groove 28, front supporting clamping grooves distributed on a bottom plate of the front supporting U-shaped groove 28, a front supporting pull driving piece 31 positioned in the front supporting U-shaped groove 28, a front supporting support 33 arranged at the rear end of the front supporting pull driving piece 31, the support front n-shaped clamping seat 34 is vertically arranged on a support front support 33 in a lifting mode and used for being inserted into a support front clamping groove, a support front guide rod 32 is arranged on a support front pull driving piece 31 movable rod and longitudinally slides in a support front guide groove 30, a support front driving piece 29 with a lower foot part hinged to the end part of the support front pull driving piece 31 movable rod, and a support lower sliding sleeve with an outer side wall hinged to the upper end part of the support front driving piece 29 and sleeved on the support hinged swing rod 6, the support auxiliary swing arm 7 or the support middle connecting rod 8;

the supporting lower sliding sleeve for supporting the front diagonal draw device 11 and the supporting lower sliding sleeve 20 for supporting the rear diagonal draw device are independent or integrated with each other.

A supporting top driving piece 21 is longitudinally arranged on the supporting lifting top frame 4, a supporting I-shaped guide seat 22 on a movable rod of the supporting top driving piece 21 is arranged, and a supporting top slotted hole 27 is longitudinally arranged on the supporting lifting top frame 4;

the upper end of the supporting H-shaped guide seat 22 slides longitudinally in the supporting top slot hole 27, and the end of the supporting top driving piece 21 is hinged with the upper end of the supporting auxiliary swing arm 7.

A supporting top long groove 24 parallel to the axial lead of the supporting top driving piece 21 is arranged on the supporting lifting top frame 4; a supporting wedge pad 25 is inserted between the upper end of the supporting I-shaped guide seat 22 and the supporting lifting top frame 4, and a supporting pad screw hole 26 is formed in the supporting wedge pad 25;

a supporting top screw rod 23 with the lower end connected with a supporting pad screw hole 26 is arranged in the supporting top long groove 24.

The radar support mounting method comprises the following mounting steps: firstly, constructing a cave for storing and working radar at the waist or the top of a mountain; then, a support frame assembly 3, a hydraulic pump station and a generator set are installed on the ground of the cave; secondly, a supporting lifting driving piece 5 is arranged on the supporting frame assembly 3; thirdly, mounting a supporting lifting top frame 4 on the supporting lifting driving piece 5; then, a supporting auxiliary swing arm 7, a supporting middle connecting rod 8 and a supporting hinged swing rod 6 are sequentially arranged between the supporting lifting top frame 4 and the supporting frame assembly 3; next, a support mounting chassis 9 is arranged between the support middle connecting rods 8; and finally, a rear supporting inclined pulling device and a front supporting inclined pulling device 11 are arranged between the supporting hinged swing rod 6 and the supporting frame assembly 3.

The radar support control method of the present embodiment, by means of the radar support device 1, includes the steps of; firstly, a supporting lifting driving piece 5 lifts a supporting lifting top frame 4, a supporting front n-shaped clamping seat 34 is separated from a supporting front clamping groove, meanwhile, a supporting rear n-shaped clamping seat 18 is separated from a supporting rear clamping groove 16, a supporting rear diagonal pulling driving piece 10 longitudinally slides in a supporting rear longitudinal guide groove 15 through a supporting rear guide rod 19, and a supporting front guide rod 32 longitudinally slides in a supporting front guide groove 30, so that the supporting front pulling driving piece 31 and the supporting rear pushing longitudinal driving piece 12 move forwards; then, when the supporting lifting driving piece 5 is locked after being lifted to the stroke position, the supported n-shaped clamping seat 18 is inserted into the supported clamping groove 16, the supported diagonal pulling driving piece 10 drives the supporting hinged swing rod 6 to swing forwards until reaching the stroke position, and meanwhile, the supporting front pulling driving piece 31 extends to the stroke position; secondly, the front n-type clamping seat 34 is engaged with the front clamping groove, and meanwhile, the rear n-type clamping seat 18 is separated from the rear clamping groove 16; thirdly, the supporting front-pull driving piece 31 retracts to the stroke position, so that the supporting installation chassis 9 is driven to swing forwards to a preset position, and meanwhile, the lateral swing angle of the supporting installation chassis 9 is adjusted by utilizing the different expansion and contraction amounts of the supporting front-pull driving pieces 31 on the two sides; next, the post-support n-clamp 18 is inserted into the post-support clamp slot 16.

Wherein, the pump station drives the support hinged swing rod 6, the support auxiliary swing arm 7 or the support intermediate connecting rod 8 to extend and retract, and the dead point of the forward swing of the installation chassis 9 is supported.

When the device is used, the radar supporting device 1 is used as a key for supporting a radar antenna, the supporting frame assembly 3 is supported and installed in a cave or a tunnel, the supporting lifting top frame 4 plays a role of safe auxiliary support to provide stability of the whole structure, and the supporting lifting driving piece 5 is preferably an oil cylinder, the device omits common parts such as a locking device and the like, the supporting hinged swing rod 6, the supporting auxiliary swing arm 7, the supporting middle connecting rod 8 can be fixed or telescopic, the supporting and installing chassis 9 is convenient for installing a radar antenna assembly, the supporting rear inclined pulling driving piece 10 realizes driving traction, the supporting front inclined pulling device 11 realizes forward traction, the supporting rear pushing longitudinal driving piece 12 realizes traction, the supporting rear bracket 13, the supporting rear U-shaped guide rail 14 is used as a guide, the supporting rear longitudinal guide groove 15 realizes longitudinal directional driving, the supporting rear clamping groove 16 realizes longitudinal stroke positioning, and the supporting rear braking driving piece 17, the n-shaped clamping seat 18 is fixed after supporting, the supporting rear guide rod 19 can be a telescopic rod and the like, the lower sliding sleeve 20 is supported to drive to swing, the supporting I-shaped guide seat 22 is used for guiding, the supporting jacking screw rod 23 is used for jacking, the supporting jacking long groove 24 is convenient for fixing any position, and the supporting wedge pad 25 is high in compatibility and large in friction force.

Claims

1. The utility model provides a movable radar communication extension detection device which characterized in that: the radar head device (2) comprises a head support (35), a head driving device (36) arranged on the head support (35), and a fan blade type radar (37) arranged on the head driving device (36); after the fan blade type radars (37) are opened, the side edges of the adjacent fan blade type radars (37) are spliced after contacting;

the head driving device (36) comprises a head rotating seat (38) arranged on a head support (35), a head rotating shaft (39) vertically arranged on the head rotating seat (38), a head and neck rotating sleeve (41) arranged on the upper part of the head rotating shaft (39), a head top cap receiver (40) arranged on the top of the head rotating shaft (39), a head bottom driving piece (42) arranged on the head and neck rotating sleeve (41), a head radar framework (46) with one end hinged with the outer side wall of the head and neck rotating sleeve (41), a head middle sliding seat (44) arranged on the head rotating shaft (39) in a sliding manner, a head and body driving rod (43) arranged between the head bottom driving piece (42) and the head middle sliding seat (44), and a head linkage side rod (45) hinged between the other end of the head radar framework (46) and the outer side wall of the head middle sliding seat (44); the head radar framework (46) is positioned at the back side of the corresponding fan blade type radar (37).

2. The movable radar communication extension detection device according to claim 1, wherein a radar support device (1) is mounted at the lower end of the radar head device (2).