CN109099290B

CN109099290B - Stable radar mount of new-type convenient installation

Info

Publication number: CN109099290B
Application number: CN201811083780.5A
Authority: CN
Inventors: 张淑芝
Original assignee: Zhu Damiao
Current assignee: Zhongan Ruida Beijing Electronic Technology Co ltd
Priority date: 2018-09-18
Filing date: 2018-09-18
Publication date: 2020-12-18
Anticipated expiration: 2038-09-18
Also published as: CN109099290A

Abstract

The invention relates to radar related equipment, in particular to a novel radar support convenient and stable to mount, which comprises a radar rotating mechanism, a stable supporting mechanism and a bottom stabilizing and moving mechanism. The radar rotating mechanism is connected with the stable supporting mechanism, and the stable supporting mechanism is connected with the bottom stabilizing and moving mechanism.

Description

Stable radar mount of new-type convenient installation

Technical Field

The invention relates to radar related equipment, in particular to a novel radar bracket convenient and stable to mount.

Background

The radar transmits electromagnetic waves to irradiate the target and receives the echo of the target, so that information such as the distance from the target to an electromagnetic wave transmitting point, the distance change rate, the direction, the height and the like is obtained, the radar needs a stable supporting structure to guarantee normal work, and an ordinary radar support is not convenient to move, so that a novel radar support which is convenient and fast to install and stable is designed to solve the problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a novel radar support which is convenient, fast and stable to install, has basic functions of lifting and rotating, has a convenient moving function, a side supporting function and a bottom fixing function, and solves the problems of inconvenient displacement and stability of the radar support.

In order to solve the technical problems, the invention relates to radar related equipment, in particular to a novel radar support convenient and stable to mount, which comprises a radar rotating mechanism, a stable supporting mechanism and a bottom stabilizing and moving mechanism.

The radar rotating mechanism comprises a radar fixing platform and a lifting and rotating mechanism, and the radar rotating mechanism comprises a radar fixing platform connected with the lifting and rotating mechanism;

the radar fixing platform comprises a fixing plate main body, auxiliary rollers, roller positioning covers, rotary adapting grooves, positioning bulges and groove sealing covers, wherein the fixing plate main body is provided with the positioning bulges, the positioning bulges are adapted to the device sealing shell through the grooves, the fixing plate main body is provided with the rotary adapting grooves, the rotary adapting grooves are adapted to an engine, the groove sealing covers are connected with the fixing plate main body through fastening screws, the number of the groove sealing covers is two, the fixing plate main body is adapted to the auxiliary rollers through the grooves, the auxiliary rollers are in contact connection with the roller positioning covers, and the roller positioning covers are connected with the fixing plate main body through the fastening screws;

the lifting and rotating mechanism comprises an engine fixing frame, an engine I, a driving gear, a gear I, a gear II, a gear set I, a U-shaped sealing cover, an engine II, a gear set II, a driving lifting piece, a gear chain and a gear III, the engine fixing frame is connected with the device sealing shell, the engine fixing frame is connected with the engine I through a fastening screw, the engine I is connected with the driving gear, two ends of the driving gear are respectively meshed with the gear I and the gear II, the gear I is meshed with the gear II, the gear II is connected with the gear set I through a gear chain, the gear set I is meshed with the driving ascending piece, the other side of the driving ascending piece is meshed with the gear set II, the gear set II is connected with the gear III through the gear chain, the engine II is connected with the driving ascending piece, the engine fixing frame is connected with the U-shaped sealing cover through the fastening screw, and the U-shaped sealing cover is matched with the engine II through;

the stable supporting mechanism comprises a device sealing shell, a stable leg positioning mechanism, an auxiliary stable leg, a bottom sealing plate and a sealing plate positioning mechanism, wherein the stable leg positioning mechanism is arranged on two sides of the device sealing shell, the auxiliary stable leg is matched with the device sealing shell through a groove, the sealing plate positioning mechanism is arranged at the bottom of the device sealing shell, and the sealing plate positioning mechanism is matched with the bottom sealing plate through a groove;

a track groove is formed in the device sealing shell and is matched with the server;

the stabilizing leg positioning mechanism comprises a servo machine sealing cover, a servo machine and a clamping block, the servo machine is matched with the device sealing shell through a groove, the servo machine is connected with the clamping block, the clamping block is matched with the device sealing shell through a through hole, the clamping block is matched with the auxiliary stabilizing leg through a groove, and the servo machine sealing cover is connected with the device sealing shell through a fastening screw;

the auxiliary stabilizing leg comprises a first rotating fixing plate, a first stabilizing leg main rod, a second rotating fixing plate and bearings, the bearings are arranged on two sides of the bottom of the stabilizing leg main rod respectively and are matched with the sealing shell of the device, the first rotating fixing plate is matched with the stabilizing leg main rod through a through hole, the second rotating fixing plate is matched with the stabilizing leg main rod through a through hole, and the first rotating fixing plate is meshed with the second rotating fixing plate through threads;

the sealing plate positioning mechanism comprises a T-shaped positioning piece, a supporting spring, an internal fixing cover and a rotary middle shaft, wherein the T-shaped positioning piece is matched with the device sealing shell through a through hole, the T-shaped positioning piece is matched with the bottom sealing plate through a groove, the T-shaped positioning piece is connected with the supporting spring, the rotary middle shaft is meshed with the T-shaped positioning piece through threads, the rotary middle shaft is matched with the internal fixing cover through the through hole, and the internal fixing cover is connected with the device sealing shell through a fastening screw;

the bottom stabilizing and moving mechanism comprises a base main body, a roller, a stabilizing mechanism and a fastening bolt, wherein the base main body is connected with the bottom sealing plate through the fastening bolt, and the base main body is connected with the roller and the stabilizing mechanism through the fastening bolt;

the base main body comprises a base shell, an internal spring, a side sealing cover, a special-shaped clamping part and a special-shaped groove, wherein the base shell is matched with the internal spring through the groove;

the roller and stabilizing mechanism comprises a bottom fixing plate, a rotating leg, a spring, a roller fixing piece, a movable roller, an L-shaped fixing piece and a groove, wherein the bottom fixing plate is connected with the rotating leg, the rotating leg is matched with the special-shaped clamping piece through the groove, the groove is formed in the rotating leg, the groove is matched with the spring, the spring is connected with the roller fixing piece, the roller fixing piece is matched with the groove, the roller fixing piece is connected with the movable roller, and the L-shaped fixing piece is connected with the rotating leg through a fastening screw;

the radar rotating mechanism is connected with the stable supporting mechanism, and the stable supporting mechanism is connected with the bottom stabilizing and moving mechanism.

As further optimization of the technical scheme, the novel radar support convenient and stable to mount has two stable leg positioning mechanisms, two auxiliary stable legs and two sealing plate positioning mechanisms which are symmetrical in position.

As a further optimization of the technical scheme, the supporting spring, the inner spring and the spring of the novel radar support which is convenient and stable to mount are all made of carbon steel.

As a further optimization of the technical scheme, the gear I, the gear II and the gear group I of the novel radar support are located on the same vertical line, and the radar support is convenient and stable to mount.

As a further optimization of the technical scheme, the gear set II and the gear three of the novel radar support which is convenient and stable to mount are positioned on the same vertical line.

As further optimization of the technical scheme, the number of the bottom fixing plates of the novel radar bracket convenient and stable to mount is two.

The novel radar support convenient and stable to mount has the beneficial effects that:

the novel radar support convenient and stable to mount has the basic functions of lifting and rotating, and also has the functions of convenient movement, side supporting and bottom fixing, so that the problem of inconvenient displacement and the problem of stability of the radar support are solved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a novel radar support frame convenient and stable to mount.

Fig. 2 is a schematic structural diagram of a novel radar rotating mechanism 1 for conveniently and stably installing a radar bracket according to the present invention.

Fig. 3 is a schematic structural diagram of a radar fixing platform 1-1 for conveniently and stably installing a radar bracket according to the present invention.

Fig. 4 is a schematic structural diagram of a novel lifting and rotating mechanism 1-2 for conveniently and stably installing a radar bracket according to the present invention.

Fig. 5 is a schematic structural diagram of a novel stable supporting mechanism 2 for conveniently installing a stable radar bracket according to the present invention.

Fig. 6 is a schematic structural diagram of a novel stabilizing leg positioning mechanism 2-2 for conveniently and stably mounting a radar bracket according to the present invention.

Fig. 7 is a schematic structural diagram of the auxiliary stabilizing leg 2-3 of the novel radar bracket convenient to install and stabilize.

Fig. 8 is a schematic perspective view of a novel sealing plate positioning mechanism 2-5 for a radar bracket convenient and stable to mount according to the present invention.

Fig. 9 is a schematic structural diagram of the bottom stabilizing and moving mechanism 3 of the new radar mount with convenient installation and stability of the invention.

Fig. 10 is a schematic structural diagram of a base body 3-1 of the novel radar support frame convenient and stable to mount.

Fig. 11 is a schematic structural diagram of a new roller and stabilizing mechanism 3-2 for conveniently and stably mounting a radar bracket according to the present invention.

Fig. 12 is a schematic structural diagram of a bottom view of a novel radar mount with easy installation and stabilization according to the present invention.

In the figure: a radar rotation mechanism 1; a radar fixing platform 1-1; a fixing plate body 1-1-1; auxiliary rollers 1-1-2; 1-1-3 of a roller positioning cover; rotating the adaptive groove 1-1-4; 1-1-5 of a positioning bulge; 1-1-6 of a groove sealing cover; a lifting and rotating mechanism 1-2; 1-2-1 parts of an engine fixing frame; 1-2-2 of the engine I; driving a gear 1-2-3; 1-2-4 of a first gear; gear two 1-2-5; a first gear set 1-2-6; 1-2-7 parts of a U-shaped sealing cover; 1-2-8 parts of a second engine; a second gear set 1-2-9; driving the lifting piece to be 1-2-10; 1-2-11 of a gear chain; gear three 1-2-12; a stable support mechanism 2; the device sealing shell 2-1; a track groove 2-1-1; a stabilizing leg positioning mechanism 2-2; a servo machine sealing cover 2-2-1; a server 2-2-2; a clamping block 2-2-3; 2-3 of auxiliary stabilizing legs; rotating the first fixing plate 2-3-1; stabilizing the leg main rods 2-3-2; rotating the second fixed plate 2-3-3; 2-3-4 parts of a bearing; a bottom seal plate 2-4; a sealing plate positioning mechanism 2-5; 2-5-1 of a T-shaped positioning piece; 2-5-2 of a supporting spring; 2-5-3 of an internal fixed cover; a bottom stabilizing and moving mechanism 3; a base body 3-1; a base housing 3-1-1; an inner spring 3-1-2; 3-1-3 of a side sealing cover; 3-1-4 of a special-shaped clamping part; 3-1-5 of a special-shaped groove; a roller and stabilizing mechanism 3-2; a bottom fixing plate 3-2-1; rotating the legs 3-2-2; 3-2-3 of a spring; 3-2-4 of a roller fixing piece; 3-2-5 of a movable roller; 3-2-6 of an L-shaped fixing piece; 3-2-7 of a groove; and fastening bolts 3-3.

Detailed Description

The first embodiment is as follows:

the present invention relates to a radar-related device, and more particularly, to a novel radar bracket convenient and stable to mount, including a radar rotating mechanism 1, a stable supporting mechanism 2, and a bottom stabilizing and moving mechanism 3, and the device has a basic function of lifting and rotating, and further has a convenient moving function, a side supporting function, and a bottom fixing function, thereby solving the problem of inconvenient displacement of the radar bracket and the problem of stability.

The radar rotating mechanism 1 comprises a radar fixing platform 1-1 and a lifting and rotating mechanism 1-2, and the radar rotating mechanism 1 comprises a radar fixing platform 1-1 and a lifting and rotating mechanism 1-2 which are connected;

the radar fixing platform 1-1 comprises a fixing plate main body 1-1-1, an auxiliary roller 1-1-2, a roller positioning cover 1-1-3, a rotary adaptive groove 1-1-4, a positioning bulge 1-1-5 and a groove sealing cover 1-1-6, wherein the fixing plate main body 1-1-1 is provided with the positioning bulge 1-1-5, the positioning bulge 1-1-5 is adapted to a device sealing shell 2-1 through a groove, the fixing plate main body 1-1-1 is provided with the rotary adaptive groove 1-1-4, the rotary adaptive groove 1-1-4 is adapted to a second engine 1-2-8, the groove sealing cover 1-1-6 is connected with the fixing plate main body 1-1-1 through a fastening screw, the number of the groove sealing covers 1-1-6 is two, the fixing plate main body 1-1-1 and the auxiliary roller 1-1-2 are matched through a groove, the auxiliary roller 1-1-2 is in contact connection with the roller positioning cover 1-1-3, the roller positioning cover 1-1-3 is connected with the fixing plate main body 1-1-1 through a fastening screw, the engine II 1-2-8 rotates to drive the fixing plate main body 1-1-1 to horizontally rotate, the auxiliary roller 1-1-2 plays a role in auxiliary rotation, and the positioning bulge 1-1-5 is matched with the device sealing shell 2-1 through a groove after the radar descends to play a role in fixing the fixing plate main body 1-1-1;

the lifting and rotating mechanism 1-2 comprises an engine fixing frame 1-2-1, an engine I1-2-2, a driving gear 1-2-3, a gear I1-2-4, a gear II 1-2-5, a gear set I1-2-6, a U-shaped sealing cover 1-2-7, an engine II 1-2-8, a gear set II 1-2-9, a driving ascending piece 1-2-10, a gear chain 1-2-11 and a gear III 1-2-12, the engine fixing frame 1-2-1 is connected with a device sealing shell 2-1, the engine fixing frame 1-2-1 is connected with the engine I1-2-2 through fastening screws, the engine I1-2-2 is connected with the driving gear 1-2-3, two ends of a driving gear 1-2-3 are respectively meshed with a gear I1-2-4 and a gear III 1-2-12, the gear I1-2-4 is meshed with a gear II 1-2-5, the gear II 1-2-5 is connected with a gear set I1-2-6 through a gear chain 1-2-11, the gear set I1-2-6 is meshed with a driving ascending piece 1-2-10, the other side of the driving ascending piece 1-2-10 is meshed with a gear set II 1-2-9, the gear set II 1-2-9 is connected with the gear III 1-2-12 through a gear chain 1-2-11, and an engine II 1-2-8 is connected with the driving ascending piece 1-2-10, the engine fixing frame 1-2-1 is connected with the U-shaped sealing cover 1-2-7 through a fastening screw, the U-shaped sealing cover 1-2-7 is matched with the engine II 1-2-8 through a through hole, the engine I1-2-2 drives the gear 1-2-3, the gear 1-2-3 drives the gear I1-2-4 and the gear III 1-2-12, the gear III 1-2-12 drives the gear set II 1-2-9, the gear I1-2-4 drives the gear II 1-2-5, the gear II 1-2-5 drives the gear set I1-2-6, the gear set I1-2-6 and the gear set II 1-2-9 have opposite rotating directions, the lifting piece 1-2-10 can be driven to ascend or descend, the lifting piece 1-2-10 is driven to be connected with the radar fixing platform 1-1, and the radar fixing platform 1-1 is connected with a radar, so that the aim of driving the radar to ascend and descend is fulfilled;

the stable supporting mechanism 2 comprises a device sealing shell 2-1, a stable leg positioning mechanism 2-2, an auxiliary stable leg 2-3, a bottom sealing plate 2-4 and a sealing plate positioning mechanism 2-5, wherein the stable leg positioning mechanism 2-2 is arranged on two sides of the device sealing shell 2-1, the auxiliary stable leg 2-3 is matched with the device sealing shell 2-1 through a groove, the sealing plate positioning mechanism 2-5 is arranged at the bottom of the device sealing shell 2-1, and the sealing plate positioning mechanism 2-5 is matched with the bottom sealing plate 2-4 through a groove;

a track groove 2-1-1 is arranged on the device sealing shell 2-1, and the track groove 2-1-1 is adapted to the servo 2-2-2;

the stable leg positioning mechanism 2-2 comprises a servo machine sealing cover 2-2-1, a servo machine 2-2-2 and a clamping block 2-2-3, the servo machine 2-2-2 is matched with the device sealing shell 2-1 through a groove, the servo machine 2-2-2 is connected with the clamping block 2-2-3, the clamping block 2-2-3 is matched with the device sealing shell 2-1 through a through hole, the clamping block 2-2-3 is matched with the auxiliary stable leg 2-3 through a groove, and the servo machine sealing cover 2-2-1 is connected with the device sealing shell 2-1 through a fastening screw;

the auxiliary stabilizing leg 2-3 comprises a first rotary fixing plate 2-3-1, a main stabilizing leg rod 2-3-2, a second rotary fixing plate 2-3-3 and a bearing 2-3-4, wherein the bearings 2-3-4 are respectively arranged on two sides of the bottom of the main stabilizing leg rod 2-3-2, the bearing 2-3-4 is adapted to a sealed shell 2-1 of the device, the first rotary fixing plate 2-3-1 is adapted to the main stabilizing leg rod 2-3-2 through a through hole, the second rotary fixing plate 2-3-3 is adapted to the main stabilizing leg rod 2-3-2 through a through hole, the first rotary fixing plate 2-3-1 is meshed with the second rotary fixing plate 2-3-3 through threads, and the clamping block 2-2-3 is driven by the server 2-2-2, the clamping block 2-2-3 is separated from the auxiliary stabilizing leg 2-3, the auxiliary stabilizing leg 2-3 is rotated downwards at the moment, the first rotary fixing plate 2-3-1 and the second rotary fixing plate 2-3-3 are rotated, and the first rotary fixing plate 2-3-1 and the second rotary fixing plate 2-3-3 are adapted to a fixed point, so that the fixing effect of the auxiliary device is achieved;

the sealing plate positioning mechanism 2-5 comprises a T-shaped positioning piece 2-5-1, a supporting spring 2-5-2, an internal fixing cover 2-5-3 and a rotary middle shaft 2-5-4, wherein the T-shaped positioning piece 2-5-1 is matched with the device sealing shell 2-1 through a through hole, the T-shaped positioning piece 2-5-1 is matched with the bottom sealing plate 2-4 through a groove, the T-shaped positioning piece 2-5-1 is connected with the supporting spring 2-5-2, the rotary middle shaft 2-5-4 is meshed with the T-shaped positioning piece 2-5-1 through a thread, the rotary middle shaft 2-5-4 is matched with the internal fixing cover 2-5-3 through a through hole, the internal fixing cover 2-5-3 is connected with the device sealing shell 2-1 through a fastening screw, the rotating middle shaft 2-5-4 is pushed, the rotating middle shaft 2-5-4 drives the T-shaped positioning piece 2-5-1, and the T-shaped positioning piece 2-5-1 is separated from the bottom sealing plate 2-4, so that the bottom sealing plate 2-4 is taken down to perform maintenance or part replacement in the device;

the bottom stabilizing and moving mechanism 3 comprises a base main body 3-1, a roller and stabilizing mechanism 3-2 and a fastening bolt 3-3, wherein the base main body 3-1 is connected with a bottom sealing plate 2-4 through the fastening bolt, and the base main body 3-1 is connected with the roller and stabilizing mechanism 3-2 through the fastening bolt 3-3;

the base main body 3-1 comprises a base shell 3-1-1, an internal spring 3-1-2, a side sealing cover 3-1-3, a special-shaped clamping piece 3-1-4 and a special-shaped groove 3-1-5, wherein the base shell 3-1-1 is matched with the internal spring 3-1-2 through the groove, the base shell 3-1-1 is matched with the special-shaped clamping piece 3-1-4 through the groove, the special-shaped clamping piece 3-1-4 is connected with the internal spring 3-1-2, the special-shaped clamping piece 3-1-4 is matched with the side sealing cover 3-1-3 through a through hole, the side sealing cover 3-1-3 is connected with the base shell 3-1-1 through a fastening screw, the special-shaped clamping part 3-1-4 is matched with the base shell 3-1-1 through a through hole, and the special-shaped clamping part 3-1-4 is matched with the roller and the stabilizing mechanism 3-2 through a groove;

the roller and stabilizing mechanism 3-2 comprises a bottom fixing plate 3-2-1, a rotating leg 3-2-2, a spring 3-2-3, a roller fixing piece 3-2-4, a moving roller 3-2-5, an L-shaped fixing piece 3-2-6 and a groove 3-2-7, wherein the bottom fixing plate 3-2-1 is connected with the rotating leg 3-2-2, the rotating leg 3-2-2 is matched with the special-shaped clamping piece 3-1-4 through the groove, the rotating leg 3-2-2 is provided with the groove 3-2-7, the groove 3-2-7 is matched with the spring 3-2-3, the spring 3-2-3 is connected with the roller fixing piece 3-2-4, the roller fixing piece 3-2-4 is adapted to the groove 3-2-7, the roller fixing piece 3-2-4 is connected with the movable roller 3-2-5, the L-shaped fixing piece 3-2-6 is connected with the rotating leg 3-2-2 through a fastening screw, the spring 3-2-3 supports the roller fixing piece 3-2-4, so that the movable roller 3-2-5 has certain damping effect while moving, the special-shaped clamping piece 3-1-4 is pushed upwards to separate the special-shaped clamping piece 3-1-4 from the rotating leg 3-2-2, at the moment, the roller and the stabilizing mechanism 3-2 rotate inwards by taking the fastening screw 3-3 as an axis, so that the movable roller 3-2-5 rotates to the inner part of the base main body 3-1, the bottom fixing plate 3-2-1 rotates to the outside of the bottom stabilizing and moving mechanism 3, the roller and the stabilizing mechanism 3-2 are fixed through the special-shaped clamping piece 3-1-4, and at the moment, the bottom of the device can be fixed at a fixed point through the bottom fixing plate 3-2-1;

the radar rotating mechanism 1 is connected with the stable supporting mechanism 2, and the stable supporting mechanism 2 and the bottom stabilizing and moving mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which there are two stabilizing leg positioning mechanisms 2-2, auxiliary stabilizing legs 2-3, and sealing plate positioning mechanisms 2-5, and the positions of the two stabilizing leg positioning mechanisms are symmetrical.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment, wherein the supporting spring 2-5-2, the inner spring 3-1-2, and the spring 3-2-3 are made of carbon steel.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the gears 1-2-4, the gears 1-2-5, and the gears 1-2-6 are located on the same vertical line.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the gear sets two 1 to 2 to 9 and the gears three 1 to 2 to 12 are located on the same vertical line.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which there are two bottom fixing plates 3-2-1.

The use method of the device comprises the following steps: the engine I1-2-2 drives the driving gear 1-2-3, the driving gear 1-2-3 drives the gear I1-2-4 and the gear III 1-2-12, the gear III 1-2-12 drives the gear set II 1-2-9, the gear I1-2-4 drives the gear II 1-2-5, the gear II 1-2-5 drives the gear set I1-2-6, the gear set I1-2-6 and the gear set II 1-2-9 have opposite rotation directions, the driving lifting piece 1-2-10 can be driven to ascend or descend, the driving lifting piece 1-2-10 is connected with the radar fixing platform 1-1, the radar fixing platform 1-1 is connected with a radar, the purpose of driving the radar to lift is achieved.

The second engine 1-2-8 rotates to drive the fixing plate main body 1-1-1 to horizontally rotate, wherein the auxiliary roller 1-1-2 plays a role in auxiliary rotation, and the positioning bulge 1-1-5 is matched with the device sealing shell 2-1 through the groove after the radar descends to play a role in fixing the fixing plate main body 1-1-1.

The servo machine 2-2-2 drives the clamping block 2-2-3 to make the clamping block 2-2-3 separate from the auxiliary stabilizing leg 2-3, at the moment, the auxiliary stabilizing leg 2-3 rotates downwards, the first rotary fixing plate 2-3-1 and the second rotary fixing plate 2-3-3 are rotated, and the first rotary fixing plate 2-3-1 and the second rotary fixing plate 2-3-3 are adapted to a fixed point, so that the fixing effect of the auxiliary device is achieved.

The spring 3-2-3 supports the roller fixing piece 3-2-4, so that when the movable roller 3-2-5 moves, the special-shaped clamping part 3-1-4 is pushed upwards to enable the special-shaped clamping part 3-1-4 to be separated from the rotating leg 3-2-2, the roller and the stabilizing mechanism 3-2 rotate inwards by taking the fastening bolt 3-3 as an axis, the moving roller 3-2-5 rotates into the base main body 3-1, the bottom fixing plate 3-2-1 rotates to the outside of the bottom stabilizing and moving mechanism 3, the roller and the stabilizing mechanism 3-2 are fixed through the special-shaped clamping part 3-1-4, and the bottom of the device can be fixed at a fixing point through the bottom fixing plate 3-2-1.

Besides the basic functions of lifting and rotating functions, the device also has the functions of convenient movement, side support and bottom fixing, and solves the problems of inconvenient displacement of the radar support and stability.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a stable radar support of new-type convenient installation, includes radar rotary mechanism (1), stable supporting mechanism (2), bottom stability and moving mechanism (3), its characterized in that: the radar rotating mechanism (1) comprises a radar fixing platform (1-1) and a lifting and rotating mechanism (1-2), and the radar rotating mechanism (1) comprises a radar fixing platform (1-1) and is connected with the lifting and rotating mechanism (1-2);

the radar fixing platform (1-1) comprises a fixing plate main body (1-1-1), auxiliary rollers (1-1-2), roller positioning covers (1-1-3), rotary adaptive grooves (1-1-4), positioning bulges (1-1-5) and groove sealing covers (1-1-6), wherein the fixing plate main body (1-1-1) is provided with the positioning bulges (1-1-5), the positioning bulges (1-1-5) are adaptive to a device sealing shell (2-1) through grooves, the fixing plate main body (1-1-1) is provided with the rotary adaptive grooves (1-1-4), the rotary adaptive grooves (1-1-4) are adaptive to a second engine (1-2-8), the groove sealing covers (1-1-6) are connected with the fixing plate main body (1-1-1) through fastening screws, the number of the groove sealing covers (1-1-6) is two, the fixing plate main body (1-1-1) is matched with the auxiliary rollers (1-1-2) through grooves, the auxiliary rollers (1-1-2) are in contact connection with the roller positioning covers (1-1-3), and the roller positioning covers (1-1-3) are connected with the fixing plate main body (1-1-1) through fastening screws;

the lifting and rotating mechanism (1-2) comprises an engine fixing frame (1-2-1), an engine I (1-2-2), a driving gear (1-2-3), a gear I (1-2-4), a gear II (1-2-5), a gear set I (1-2-6), a U-shaped sealing cover (1-2-7), an engine II (1-2-8), a gear set II (1-2-9), a driving ascending part (1-2-10), a gear chain (1-2-11) and a gear III (1-2-12), wherein the engine fixing frame (1-2-1) is connected with a device sealing shell (2-1), the engine fixing frame (1-2-1) is connected with the engine I (1-2-2) through fastening screws, the engine I (1-2-2) is connected with the driving gear (1-2-3), two ends of the driving gear (1-2-3) are respectively meshed with the gear I (1-2-4) and the gear III (1-2-12), the gear I (1-2-4) is meshed with the gear II (1-2-5), the gear II (1-2-5) is connected with the gear set I (1-2-6) through a gear chain (1-2-11), the gear set I (1-2-6) is meshed with the driving ascending piece (1-2-10), the other side of the driving ascending piece (1-2-10) is meshed with the gear set II (1-2-9), and the gear set II (1-2-9) and the gear III (1-2-12) are meshed through the gear chain (1-2-12) -11), the second engine (1-2-8) is connected with the driving lifting piece (1-2-10), the engine fixing frame (1-2-1) is connected with the U-shaped sealing cover (1-2-7) through a fastening screw, and the U-shaped sealing cover (1-2-7) is matched with the second engine (1-2-8) through a through hole;

the stable supporting mechanism (2) comprises a device sealing shell (2-1), a stable leg positioning mechanism (2-2), auxiliary stable legs (2-3), a bottom sealing plate (2-4) and a sealing plate positioning mechanism (2-5), the stable leg positioning mechanism (2-2) is arranged on two sides of the device sealing shell (2-1), the auxiliary stable legs (2-3) are matched with the device sealing shell (2-1) through grooves, the sealing plate positioning mechanism (2-5) is arranged at the bottom of the device sealing shell (2-1), and the sealing plate positioning mechanism (2-5) is matched with the bottom sealing plate (2-4) through grooves;

a track groove (2-1-1) is arranged on the device sealing shell (2-1), and the track groove (2-1-1) is adapted to the servo (2-2-2);

the stable leg positioning mechanism (2-2) comprises a servo machine sealing cover (2-2-1), a servo machine (2-2-2) and a clamping block (2-2-3), the servo machine (2-2-2) is matched with the device sealing shell (2-1) through a groove, the servo machine (2-2-2) is connected with the clamping block (2-2-3), the clamping block (2-2-3) is matched with the device sealing shell (2-1) through a through hole, the clamping block (2-2-3) is matched with the auxiliary stable leg (2-3) through a groove, and the servo machine sealing cover (2-2-1) is connected with the device sealing shell (2-1) through a fastening screw;

the auxiliary stabilizing leg (2-3) comprises a first rotary fixing plate (2-3-1) and a main rod (2-3-2) of the stabilizing leg, the two sides of the bottom of the stabilizing leg main rod (2-3-2) are respectively provided with a bearing (2-3-4), the bearings (2-3-4) are adapted to a device sealing shell (2-1), the rotating fixing plate I (2-3-1) is adapted to the stabilizing leg main rod (2-3-2) through a through hole, the rotating fixing plate II (2-3-3) is adapted to the stabilizing leg main rod (2-3-2) through a through hole, and the rotating fixing plate I (2-3-1) is meshed with the rotating fixing plate II (2-3-3) through threads;

the sealing plate positioning mechanism (2-5) comprises a T-shaped positioning piece (2-5-1), a supporting spring (2-5-2), an internal fixing cover (2-5-3) and a rotary middle shaft (2-5-4), the T-shaped positioning piece (2-5-1) is adapted to a sealing shell (2-1) of the device through a through hole, the T-shaped positioning piece (2-5-1) is adapted to a bottom sealing plate (2-4) through a groove, the T-shaped positioning piece (2-5-1) is connected with the supporting spring (2-5-2), the rotary middle shaft (2-5-4) is engaged with the T-shaped positioning piece (2-5-1) through threads, the rotary middle shaft (2-5-4) is adapted to the internal fixing cover (2-5-3) through the through hole, the internal fixed cover (2-5-3) is connected with the device sealing shell (2-1) through a fastening screw;

the bottom stabilizing and moving mechanism (3) comprises a base main body (3-1), a roller and stabilizing mechanism (3-2) and a fastening bolt (3-3), wherein the base main body (3-1) is connected with a bottom sealing plate (2-4) through a fastening bolt, and the base main body (3-1) is connected with the roller and stabilizing mechanism (3-2) through the fastening bolt (3-3);

the base main body (3-1) comprises a base shell (3-1-1), an inner spring (3-1-2), a side sealing cover (3-1-3), a special-shaped clamping piece (3-1-4) and a special-shaped groove (3-1-5), the base shell (3-1-1) is matched with the inner spring (3-1-2) through the groove, the base shell (3-1-1) is matched with the special-shaped clamping piece (3-1-4) through the groove, the special-shaped clamping piece (3-1-4) is connected with the inner spring (3-1-2), the special-shaped clamping piece (3-1-4) is matched with the side sealing cover (3-1-3) through a through hole, and the side sealing cover (3-1-3) is connected with the base shell (3-1-1) through a fastening screw The special-shaped clamping piece (3-1-4) is matched with the base shell (3-1-1) through a through hole, and the special-shaped clamping piece (3-1-4) is matched with the roller and the stabilizing mechanism (3-2) through a groove;

the roller and stabilizing mechanism (3-2) comprises a bottom fixing plate (3-2-1), a rotating leg (3-2-2), a spring (3-2-3), a roller fixing piece (3-2-4), a movable roller (3-2-5), an L-shaped fixing piece (3-2-6) and a groove (3-2-7), wherein the bottom fixing plate (3-2-1) is connected with the rotating leg (3-2-2), the rotating leg (3-2-2) is matched with the special-shaped clamping piece (3-1-4) through the groove, the groove (3-2-7) is arranged on the rotating leg (3-2-2), and the groove (3-2-7) is matched with the spring (3-2-3), the spring (3-2-3) is connected with the roller fixing piece (3-2-4), the roller fixing piece (3-2-4) is matched with the groove (3-2-7), the roller fixing piece (3-2-4) is connected with the movable roller (3-2-5), and the L-shaped fixing piece (3-2-6) is connected with the rotating leg (3-2-2) through a fastening screw;

the radar rotating mechanism (1) is connected with the stable supporting mechanism (2), and the stable supporting mechanism (2) is connected with the bottom stabilizing and moving mechanism (3).

2. The new radar mount with easy installation and stability as claimed in claim 1, wherein: the number of the stabilizing leg positioning mechanisms (2-2), the auxiliary stabilizing legs (2-3) and the sealing plate positioning mechanisms (2-5) is two, and the positions are symmetrical.

3. The new radar mount with easy installation and stability as claimed in claim 1, wherein: the supporting spring (2-5-2), the inner spring (3-1-2) and the spring (3-2-3) are all made of carbon steel.

4. The new radar mount with easy installation and stability as claimed in claim 1, wherein: the first gear (1-2-4), the second gear (1-2-5) and the first gear set (1-2-6) are located on the same vertical line.

5. The new radar mount with easy installation and stability as claimed in claim 1, wherein: the second gear set (1-2-9) and the third gear (1-2-12) are positioned on the same vertical line.

6. The new radar mount with easy installation and stability as claimed in claim 1, wherein: the number of the bottom fixing plates (3-2-1) is two.