CN220543114U - Laser wind-finding radar with stable structure - Google Patents

Abstract

The utility model discloses a laser wind-finding radar with a stable structure, which comprises a wind-finding radar main body, wherein the wind-finding radar main body comprises a wind-finding radar main body, a fixing seat, a mounting seat and a supporting frame, the mounting seat is integrally formed at the top end of the supporting frame, the fixing seat is arranged at two ends of the lower surface of the wind-finding radar main body, and the wind-finding radar main body is fixedly connected with the mounting seat through bolts; through the design strengthening and stabilizing mechanism, can be when fixing base and mount pad pass through behind bolt fixed mounting with the wind-finding radar host computer fixed mounting, drive two mobile bodies and remove when two-way lead screw normal position rotates to drive the tight gland when removing through the mobile body and remove the tip block of bolt in the inside of sticis hole, so be convenient for strengthen the bolt-up behind fixing base and mount pad fixed mounting through the bolt, thereby consolidate the installation with wind-finding radar host computer and support frame.

Description

Laser wind-finding radar with stable structure

Technical Field

The utility model belongs to the technical field of laser wind-finding radars, and particularly relates to a laser wind-finding radar with a stable structure.

Background

The wind power generator is power equipment which converts wind energy into mechanical work, the mechanical work drives a rotor to rotate and finally outputs alternating current, so that the wind power generator needs to monitor wind power when rotating to generate power, the wind power monitoring is usually performed through a laser wind-finding radar, the existing laser wind-finding radar is equipment for monitoring the wind power when the wind power generator is in power generation operation, the equipment is convenient for stable reinforcement and installation when monitoring the wind power, accurate wind speed measurement is performed, and the reinforcing stability and safety protection use effect when the wind-finding radar is installed on the wind power generator are improved;

when the existing laser wind measuring radar is used, the laser wind measuring radar host is fixedly installed at the top end of the supporting frame through the bolts, and the laser wind measuring radar is fixedly installed on the wind driven generator through the supporting frame after being installed, so that the laser wind measuring radar is installed at the top end of the wind driven generator for laser wind measuring, and the laser wind measuring radar is directly fixedly installed with the supporting frame through the bolts when being installed and used, is in the top end wind measuring operation of the wind driven generator after being installed, and is unstable in shaking after being installed when the wind measuring using wind speed is large and the resistance of external wind is received, the laser wind measuring radar is inconvenient to be reinforced and installed, and the bolts are easy to loosen or even fall off when shaking, so that the problem of reinforcing stability when the laser wind measuring radar is installed on the wind driven generator is solved.

Disclosure of Invention

The utility model aims to provide a laser wind-finding radar with a stable structure, which aims to solve the problems that in the background art, when the laser wind-finding radar is installed at the top of a wind driven generator for wind finding, the laser wind-finding radar is easy to shake and unstable after being installed due to the fact that the wind speed is large and the resistance of external wind is applied, the laser wind-finding radar is inconvenient to strengthen and install, and bolts are easy to loosen or even fall off during shaking, so that the stability of the laser wind-finding radar is influenced when the laser wind-finding radar is installed on the wind driven generator for wind finding.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a laser wind-finding radar with stable structure, includes the wind-finding radar main part, the wind-finding radar main part includes wind-finding radar host computer, fixing base, mount pad and support frame, mount pad integrated into one piece is on the top of support frame, the fixing base sets up at the lower surface both ends of wind-finding radar host computer, just the wind-finding radar host computer with the mount pad passes through bolt fixed connection, still be provided with in the wind-finding radar main part:

the reinforcing and stabilizing mechanism comprises a movable adjusting component and a compacting and stabilizing component, the movable adjusting component is arranged in the mounting seat, and the compacting and stabilizing component is arranged at two ends of the upper surface of the movable adjusting component;

the protection mechanism comprises a mounting assembly, a protection assembly and a buffer connection assembly, wherein the mounting assembly is arranged on the outer surface of the wind-finding radar host, the protection assembly is arranged on the outer surface of the mounting assembly, and the buffer connection assembly is arranged at the joint of the mounting assembly and the protection assembly.

Preferably, the movable adjusting component comprises a second groove formed in the mounting seat, a two-way screw rod is rotatably connected in the second groove, a rotating head is mounted on the side face of the mounting seat at the end portion of the two-way screw rod, and movable bodies are arranged at the two ends of the two-way screw rod.

Preferably, the compacting and stabilizing assembly comprises a compacting cover welded and fixed on the surface of the moving body, and two compacting holes are formed in the compacting cover.

Preferably, the pressing hole and the pressing cover are of an integrated structure, and the two pressing covers are symmetrically arranged.

Preferably, the installation component includes the fixed cover of passing through bolt fixed mounting at the outer surface of wind-finding radar host computer, and the surface of fixed cover with the surface structure of wind-finding radar host computer coincide.

Preferably, the protection component comprises a first groove formed in the inner surface of the fixed cover, and a buffer plate is arranged in the first groove.

Preferably, the buffer connection assembly comprises a buffer spring II welded and fixed at the joint of two ends of the buffer plate and one end of the groove, a buffer spring I is welded and fixed at the joint of the inner top end of the buffer plate and the upper surface of the groove I, sliding rods are arranged on the inner surfaces of two sides of the buffer spring I, the outer surfaces of the sliding rods are slidably connected with sliding heads, and buffer rods are installed at the joint of the end parts of the sliding heads and the lower surface of the buffer plate through connecting pins.

Preferably, the sliding rod penetrates through the sliding head, and the end part of the buffer rod is in sliding connection with the sliding rod through the sliding head with the upper surface of the fixed cover.

Compared with the prior art, the utility model has the beneficial effects that:

through strengthening firm mechanism through the design, can be when fixing base and mount pad pass through bolt fixed mounting back with the wind-finding radar host computer fixed mounting, drive two mobile phases and remove when two-way lead screw normal position rotates, and drive the tight gland and remove the tip block of bolt in the inside of sticis hole when removing through the mobile body, therefore be convenient for strengthen the bolt fastening after fixing base and mount pad fixed mounting through the bolt, thereby consolidate the installation with wind-finding radar host computer and support frame, be difficult for causing the wind-finding radar to rock when the wind-finding radar is in wind-mill generator top wind-finding speed and receives the great resistance of wind, thereby be difficult for causing the bolt to become flexible to install not fastening, the enhancement steadiness when the wind-finding radar is installed on wind-mill generator is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged schematic view of the portion A of FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of the structure of the compacting cover, the moving body and the compacting hole of the present utility model;

FIG. 4 is a schematic view of a buffer plate, a retaining cap and a groove according to the present utility model;

FIG. 5 is an enlarged schematic view of the portion B of FIG. 1 according to the present utility model;

FIG. 6 is an enlarged schematic view of the portion C of FIG. 1 according to the present utility model;

in the figure: 100. a wind-finding radar main body; 101. a wind-finding radar host; 1011. a buffer plate; 1012. a fixed cover; 1013. a groove I; 1014. a buffer rod; 1015. a buffer spring I; 1016. a slider; 1017. a slide bar; 1018. buffer spring II; 102. a fixing seat; 1021. a two-way screw rod; 1022. tightly pressing the cover; 1023. a moving body; 1024. a rotating head; 1025. a second groove; 1026. a compacting hole; 103. a mounting base; 104. and (5) supporting frames.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 6, the present utility model provides a technical solution: the utility model provides a laser anemometer radar with stable structure, including the anemometer radar main part 100, the anemometer radar main part 100 includes the anemometer radar host computer 101, fixing base 102, mount pad 103 and support frame 104, mount pad 103 integrated into one piece is on the top of support frame 104, fixing base 102 sets up the lower surface both ends at the anemometer radar host computer 101, and the anemometer radar host computer 101 passes through bolt fixed connection with mount pad 103, with support frame 104 fixed mounting on aerogenerator's top, and pass through bolt fixed mounting with fixing base 102 closure at the upper surface of mount pad 103, thereby it is fixed to the anemometer radar host computer 101 after fixing base 102 fixed mounting, consequently be convenient for through support frame 104 to the anemometer radar main part 100 fixed mounting on aerogenerator and the power on wind-measuring, still be provided with on the anemometer radar main part 100:

strengthen firm mechanism, and should strengthen firm mechanism including removing adjusting part and sticiss firm subassembly, remove adjusting part and set up in the inside of mount pad 103, sticiss firm subassembly and set up in the upper surface both ends of removing adjusting part, can be through support frame 104 with the use of wind-finding radar main part 100 fixed mounting on aerogenerator, strengthen the fastening to the bolt of installing between wind-finding radar host computer 101 and the mount pad 103 by strengthening firm mechanism this moment, be difficult for the aone to the bolt is not hard up when receiving the great resistance of wind, strengthen the steadiness when improving wind-finding radar main part 100 and installing the wind-finding on the aerogenerator.

In order to facilitate the movement of the compression cover 1022 through the movement adjusting assembly to fasten the bolt clamped in the compression hole 1026, in this embodiment, preferably, the movement adjusting assembly comprises a second groove 1025 formed in the mounting seat 103, the bidirectional screw 1021 is rotatably connected in the second groove 1025, the end part of the bidirectional screw 1021 is provided with a rotating head 1024 on the side surface of the mounting seat 103, the rotating head 1024 is convenient to rotate to drive the bidirectional screw 1021 to rotate, and the rotation adjusting use is convenient, the moving bodies 1023 are arranged at the two ends of the bidirectional screw 1021, and the bidirectional screw 1021 drives the two moving bodies 1023 to move in opposite directions at the end part of the bidirectional screw 1021 during rotation, and the movement adjusting use is convenient.

In order to strengthen fixedly after being convenient for to bolt fixed mounting through sticis firm subassembly, and make wind-finding radar host 101 install and strengthen fixedly at the upper surface of mount pad 103, in this embodiment, preferably, sticis firm subassembly including the welded fastening in the lid 1022 that sticis of moving body 1023 surface, two sticiss holes 1026 have been seted up to sticiss lid 1022's inside, the inside embedding of being convenient for remove sticiss lid 1022 with the bolt sticiss hole 1026 sticiss fixed, consolidate the installation and stabilize, in this embodiment, preferably, sticiss hole 1026 and sticiss lid 1022 are the integral type structure, and two sticiss lid 1022 mutual symmetry set up, be convenient for to both sides bolt-up installation.

The protection mechanism, and this protection mechanism includes installation component, protection component and buffering coupling assembling, the installation component sets up the surface at the wind-finding radar host 101, the protection component sets up the surface at the installation component, buffering coupling assembling sets up the junction at installation component and protection component, can be with wind-finding radar main part 100 fixed mounting when using on aerogenerator, when receiving external object striking, by the protection mechanism to the top protection of wind-finding radar main part 100 use, and be difficult for causing the deformation damage, be convenient for strengthen buffering protection, the safety protection effect when improving wind-finding radar main part 100 and installing on aerogenerator.

In order to be convenient for install the guard with buffer board 1011 and use through the installation component, in this embodiment, preferably, the installation component includes the fixed cover 1012 at the outer surface of the wind-finding radar host 101 through bolt fixed mounting, and the outer surface of fixed cover 1012 coincides with the outer surface structure of wind-finding radar host 101, be convenient for at the internally mounted buffer board 1011 buffering guard of fixed cover 1012 use, be convenient for buffer guard use when the outer surface of wind-finding radar host 101 receives the striking through the guard component, be convenient for stabilize buffering operation, the guard component is including seting up recess one 1013 at the inner surface of fixed cover 1012, the inside of recess one 1013 is provided with the buffer board 1011, be convenient for through buffer board 1011 buffering the outer surface protection of wind-finding radar host 101.

In order to be convenient for receive buffer board 1011 and buffer protection when striking through buffering supporting component, in this embodiment, preferably, buffering coupling assembling includes the buffer spring second 1018 of welded fastening in buffer board 1011 both ends and recess first 1013 end junction, the upper surface buffering time guard of buffer board 1011 of being convenient for through buffer spring second 1018 is used, and the inside top of buffer board 1011 and the upper surface junction welded fastening of recess first 1013 have buffer spring one 1015, be convenient for the side elasticity buffer protection to buffer board 1011 through buffer spring one 1015, the both sides of buffer spring one 1015 are located the fixed cover 1012 internal surface and are provided with slide bar 1017, slide bar 1017's surface sliding connection has slide head 1016, the tip of slide head 1016 and the lower surface junction of buffer board 1011 are installed through the connecting pin and are passed through buffer rod 1014, can drive buffer rod 1014 and take place the gradient when the surface of slide bar 1017 through the slide head 1016 when buffer board 1011 is buffered, and support the use to the internal surface of buffer board 1011 in order to be convenient for take place the gradient with the slide head 1016 at 1017's surface sliding drive buffer rod 1014, and be convenient for support slide bar 1017's surface sliding, and slide bar 1016 run through the inside is convenient for use on slide bar 1016 and slide bar 1012.

The working principle and the using flow of the utility model are as follows: when the laser wind-finding radar with the stable structure is used, firstly, the support frame 104 is fixedly arranged at the top end of the wind-driven generator, and the fixed seat 102 is closed on the upper surface of the mounting seat 103 and fixedly arranged through bolts, so that the wind-finding radar host 101 is fixed after the fixed seat 102 is fixedly arranged, and the wind-finding radar main body 100 is conveniently and fixedly arranged on the wind-driven generator through the support frame 104 and is electrified for wind-finding;

then, when the wind-finding radar main body 100 is fixedly installed on the wind driven generator through the supporting frame 104, the fixing seat 102 and the installation seat 103 are fixedly installed through bolts, the wind-finding radar main body 101 is fixedly installed, after the wind-finding radar main body 101 is fixedly installed, the wrench is clamped on the outer surface of the rotating head 1024 to drive the bidirectional screw rod 1021 to rotate in situ, the bidirectional screw rod 1021 drives the two moving bodies 1023 to move in opposite directions when rotating in situ, and the compressing cover 1022 is driven to move when the moving bodies 1023 move to clamp the end parts of the bolts in the compressing holes 1026, so that the fixing seat 102 and the installation seat 103 are fixedly installed through the bolts, the wind-finding radar main body 101 and the supporting frame 104 are fixedly installed, the wind-finding radar main body 100 is not easy to shake when the wind-finding radar main body 100 is positioned at the top end of the wind driven generator and is subjected to large resistance of wind, the bolts are not easy to loosen and are not fastened, and the reinforcing stability of the wind-finding radar main body 100 when being installed on the wind driven generator is used for measuring wind is improved;

finally, when the wind-finding radar main body 100 is installed on the wind driven generator for wind finding, the top end of the wind driven generator is impacted by an external object, the wind-finding radar main body directly impacts the surface of the buffer plate 1011 at the moment, and when the surface of the buffer plate 1011 is impacted, the buffer plate 1011 is buffered by deformation of the buffer spring one 1015, and the sliding head 1016 is driven to slide on the outer surface of the sliding rod 1017 to incline the buffer rod 1014 for buffer support during buffer buffering of the buffer plate 1011, and meanwhile, the end part of the buffer plate 1011 is deformed and buffered through the buffer spring two 1018, and the object is convenient to buffer and impact the object rebound when impacting on the surface of the buffer plate 1011, so that the impact is reduced, the impact is not easy to be caused to be deformed and damaged, and the safety protection effect when the wind-finding radar main body 100 is installed on the wind driven generator for wind finding is improved.

Although embodiments of the present utility model have been shown and described in detail with reference to the foregoing detailed description, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations may be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a laser wind-finding radar with stable structure, includes wind-finding radar main part (100), wind-finding radar main part (100) include wind-finding radar host computer (101), fixing base (102), mount pad (103) and support frame (104), mount pad (103) integrated into one piece is on the top of support frame (104), fixing base (102) set up at the lower surface both ends of wind-finding radar host computer (101), just wind-finding radar host computer (101) with mount pad (103) pass through bolt fixed connection, its characterized in that: the wind-finding radar main body (100) is also provided with:

the reinforcing and stabilizing mechanism comprises a movable adjusting component and a compressing and stabilizing component, the movable adjusting component is arranged in the mounting seat (103), and the compressing and stabilizing component is arranged at two ends of the upper surface of the movable adjusting component;

the protection mechanism comprises a mounting assembly, a protection assembly and a buffer connection assembly, wherein the mounting assembly is arranged on the outer surface of a wind-finding radar host (101), the protection assembly is arranged on the outer surface of the mounting assembly, and the buffer connection assembly is arranged at the joint of the mounting assembly and the protection assembly.

2. A lidar with stable structure according to claim 1, characterized in that: the movable adjusting assembly comprises a second groove (1025) formed in the mounting seat (103), a bidirectional screw rod (1021) is rotatably connected in the second groove (1025), a rotating head (1024) is mounted on the side face of the mounting seat (103) at the end portion of the bidirectional screw rod (1021), and movable bodies (1023) are arranged at the two ends of the bidirectional screw rod (1021).

3. A lidar with stabilizing structure according to claim 2, wherein: the compressing and stabilizing assembly comprises a compressing cover (1022) welded and fixed on the surface of the moving body (1023), and two compressing holes (1026) are formed in the compressing cover (1022).

4. A lidar with stabilizing structure according to claim 3, wherein: the pressing holes (1026) and the pressing cover (1022) are of an integrated structure, and the two pressing covers (1022) are symmetrically arranged.

5. A lidar with stable structure according to claim 1, characterized in that: the installation component includes fixed cover (1012) at the outer surface of wind-finding radar host computer (101) through bolt fixed mounting, and the surface of fixed cover (1012) with the surface structure of wind-finding radar host computer (101) coincide.

6. A lidar with stabilizing structure according to claim 5, wherein: the protection assembly comprises a first groove (1013) formed in the inner surface of the fixed cover (1012), and a buffer plate (1011) is arranged in the first groove (1013).

7. A lidar with stabilizing structure according to claim 6, wherein: the buffering connection assembly comprises a buffering spring II (1018) welded and fixed at the connection position of two ends of a buffering plate (1011) and the end part of a groove I (1013), a buffering spring I (1015) welded and fixed at the connection position of the inner top end of the buffering plate (1011) and the upper surface of the groove I (1013), sliding rods (1017) are arranged on the inner surface of a fixed cover (1012) on two sides of the buffering spring I (1015), sliding heads (1016) are slidably connected to the outer surfaces of the sliding rods (1017), and buffer rods (1014) are installed at the connection position of the end parts of the sliding heads (1016) and the lower surface of the buffering plate (1011) through connecting pins.

8. A lidar with stabilizing structure according to claim 7, wherein: the sliding rod (1017) penetrates through the sliding head (1016), and the end part of the buffer rod (1014) is in sliding connection with the sliding rod (1017) through the sliding head (1016) and the upper surface of the fixed cover (1012).