CN216000370U

CN216000370U - A installation device for automatic monitor terminal of GNSS

Info

Publication number: CN216000370U
Application number: CN202121824102.7U
Authority: CN
Inventors: 于萌
Original assignee: Jg Hi Tech Chengdu Optoelectronic Co ltd
Current assignee: Jg Hi Tech Chengdu Optoelectronic Co ltd
Priority date: 2021-08-05
Filing date: 2021-08-05
Publication date: 2022-03-11
Anticipated expiration: 2031-08-05

Abstract

The utility model relates to the technical field of installation equipment, in particular to an installation device for a GNSS (global navigation satellite system) automatic monitoring terminal, which comprises a ground column, wherein the upper end of the ground column is detachably connected with a base, the upper end of the base is connected with a complete global satellite navigation device, the inner wall of the ground column is connected with an internal fixed disk, the internal fixed disk is rotatably connected with a threaded rod, the lower end of the threaded rod is connected with a fixed ring, the fixed ring is connected with the ground column, the threaded rod is in threaded connection with a threaded sleeve, the threaded sleeve is connected with a lifting disk, the lifting disk is connected with support columns, the support columns are connected with three groups of uniformly arranged support disks, the support disks are rotatably connected with four groups of uniformly distributed round rod pins, the outer walls of the round rod pins are provided with rotating sleeves, the rotating sleeves are rotatably connected with the ground column, the internal fixed disk is connected with guide rods symmetrical to the threaded rods, and the guide rods are slidably connected with the lifting disk. Compared with the traditional concrete bottom block, the utility model saves time and improves efficiency, and meanwhile, the ground pillar can be recycled to be used in the next place, thereby saving cost and resources.

Description

A installation device for automatic monitor terminal of GNSS

Technical Field

The utility model relates to the technical field of installation equipment, in particular to an installation device for a GNSS (global navigation satellite system) automatic monitoring terminal.

Background

The Global Navigation Satellite System (GNSS) is also called a Global Navigation Satellite System, and especially the third generation System of the beidou Satellite in China provides Navigation and positioning services for the world. The GNSS relies on electromagnetic waves to carry out distance rendezvous positioning, is not influenced by factors such as distance, terrain, weather and the like, has the advantages of high precision, all weather, low cost and high automation, and is a space-based radio navigation positioning system capable of providing all-weather three-dimensional coordinates, speed and time information for users at any place on the earth surface or in a near-earth space.

However, in the prior art, the GNSS automated monitoring terminal is generally installed by firstly performing pile foundation pit excavation, template support and concrete pouring, all operations depend on manual participation, the process is long, the efficiency is low, the concrete pouring cannot be recycled, the cost is high, and resource waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a GNSS automatic monitoring terminal installation device which can be installed quickly and save resources aiming at the problems in the background technology.

The technical scheme includes that the installation device for the GNSS automatic monitoring terminal comprises a ground column, the upper end of the ground column is detachably connected with a base, the upper end of the base is connected with a complete global satellite navigation device, the inner wall of the ground column is connected with an inner fixed disk, the inner fixed disk is rotatably connected with a threaded rod, the lower end of the threaded rod is connected with a fixed ring, the fixed ring is connected with the ground column, the threaded rod is in threaded connection with a threaded sleeve, the threaded sleeve is connected with a lifting disk, the lifting disk is connected with supporting columns, the supporting columns are connected with three groups of uniformly arranged supporting disks, the supporting disks are rotatably connected with four groups of uniformly distributed round rod pins, the outer walls of the round rod pins are provided with rotating sleeves, the rotating sleeves are rotatably connected with the ground column, the inner fixed disk is connected with guide rods symmetrical to the threaded rod, the guide rods are in sliding connection with the lifting disk, the guide rods penetrate through the lifting disk to be connected with the ground column, the outer wall of the ground column is connected with four groups of uniformly distributed pins.

Preferably, the upper end of the ground column is connected with a mounting plate, the mounting plate is connected with four groups of foundation bolts, the upper ends of the foundation bolts are connected with a base, the foundation bolts penetrate through the base and are connected with nuts, the foundation bolts and the nuts are stably and reliably connected, and the cost is low.

Preferably, the global satellite navigation device comprises a ring rod connected with the base, the outer wall of the ring rod is connected with a control device and a solar device, the upper end of the ring rod is connected with a monitoring device, and the monitoring device form a complete GNSS automatic monitoring terminal device.

Preferably, controlling means includes the frame of placing with ring pole outer wall connection, places and has placed the control box in the frame, places the frame and is connected with multiunit second bolt, and the second bolt passes and places frame and butt at the control box surface, places the control box of placing that can be stable in the frame, and the control box is further fixed to the second bolt, guarantees its stability.

Preferably, solar device includes solar panel, and solar panel is connected with the base, and the pedestal connection has the support, and leg joint solar panel, pedestal connection have the ring cover, and the ring cover is connected with first bolt, and first bolt passes ring cover and butt at ring pole outer wall, and the elasticity of control first bolt can adjust solar panel's direction.

Preferably, the supporting disc is provided with four groups of first slots which are uniformly distributed, the first slots are rotatably connected with the round bar pins, the outer wall of the ground column is provided with a plurality of groups of second slots which are uniformly arranged, the second slots are rotatably connected with the rotating sleeve, and different slots do not influence the movement of different parts.

Preferably, the outer wall of the threaded rod is connected with a baffle ring at the joint of the inner fixed disk and the fixing ring, the baffle ring and the threaded rod are rotatably connected with the inner fixed disk and the fixing ring, and the baffle ring is used for ensuring the rotational stability of the threaded rod.

Preferably, a square hole is formed in the upper end of the threaded rod, a through hole penetrating through the upper end of the ground column, the mounting plate and the base is formed in the upper portion of the square hole, the special wrench penetrates through the through hole to be connected with the square hole above the threaded rod, and the wrench is rotated to drive the threaded rod to rotate.

Compared with the prior art, the utility model has the following beneficial technical effects: the ground pillar can be directly inserted into the ground, the pin and the round rod pin can be directly inserted into the ground, the stability of the ground pillar is directly guaranteed, compared with the traditional concrete bottom block, the time is saved, the efficiency is improved, the ground pillar is inserted into the ground until the pin is completely inserted into the ground, a special wrench penetrates through the through hole to be connected into the square hole above the threaded rod, the wrench is rotated to drive the threaded rod to rotate, the threaded rod drives the threaded sleeve, the lifting disc, the supporting column and the supporting disc to ascend, the supporting disc ascends to drive the round rod pin to extend outwards to be inserted into the ground, the stability of the ground pillar can be guaranteed through the round rod pins, the stability of a device above the ground pillar is guaranteed at the same time, when the ground pillar needs to be pulled out, the threaded rod is reversed, the round rod pin is retracted, the ground pillar can be recycled to be used in the next place, and the cost and the resources are saved.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a portion of one embodiment of the present invention;

FIG. 3 is a second partial cross-sectional view of an embodiment of the present invention;

fig. 4 is a partial structural diagram of an embodiment of the present invention.

Reference numerals: 1. a monitoring device; 2. a solar panel; 3. a support; 4. a base; 5. a first bolt; 6. a second bolt; 7. placing the frame; 8. a base; 9. mounting a plate; 10. a pin; 11. rotating the sleeve; 12. a second slot; 13. a ground pillar; 14. a round bar pin; 15. an outer fixed disk; 16. a nut; 17. anchor bolts; 18. a control box; 19. a circular ring sleeve; 20. a ring rod; 21. a square hole; 22. a baffle ring; 23. a threaded rod; 24. a first slot; 25. a fixing ring; 26. a threaded sleeve; 27. a lifting plate; 28. a support disc; 29. a support pillar; 30. a guide bar; 31. a through hole; 32. an inner fixed disk.

Detailed Description

Examples

As shown in fig. 1-4, the installation device for GNSS automated monitoring terminal provided by the present invention comprises a ground pillar 13, wherein the upper end of the ground pillar 13 is detachably connected with a base 8, the upper end of the base 8 is connected with a complete global satellite navigation device, the inner wall of the ground pillar 13 is connected with an inner fixed disk 32, the inner fixed disk 32 is rotatably connected with a threaded rod 23, the lower end of the threaded rod 23 is connected with a fixed ring 25, the fixed ring 25 is connected with the ground pillar 13, the threaded rod 23 is in threaded connection with a threaded sleeve 26, the threaded sleeve 26 is connected with a lifting disk 27, the lifting disk 27 is connected with a supporting column 29, the supporting column 29 is connected with three groups of uniformly arranged supporting disks 28, the supporting disks 28 are rotatably connected with four groups of uniformly distributed round rod pins 14, the outer walls of the round rod pins 14 are provided with rotary sleeves 11, the rotary sleeves 11 are rotatably connected with the ground pillar 13, the inner fixed disk 32 is connected with a guide rod 30 symmetrical to the threaded rod 23, the guide rod 30 is slidably connected with the lifting disk 27, the guide rod 30 passes through the lifting disc 27 and is connected with the ground column 13, the outer wall of the ground column 13 is connected with the outer fixing disc 15, and the outer fixing disc 15 is connected with four groups of pins 10 which are uniformly distributed.

The upper end of the ground column 13 is connected with an installation plate 9, the installation plate 9 is connected with four groups of foundation bolts 17, the upper end of each foundation bolt 17 is connected with a base 8, each foundation bolt 17 penetrates through the corresponding base 8 and is connected with a nut 16, and the foundation bolts 17 and the nuts 16 are stably and reliably connected and are low in cost.

The global satellite navigation device comprises a ring rod 20 connected with a base 8, the outer wall of the ring rod 20 is connected with a control device and a solar device, the upper end of the ring rod 20 is connected with a monitoring device 1, and the devices form a complete GNSS automatic monitoring terminal device.

Controlling means places the frame 7 including with 20 outer wall connections of ring pole, places and has placed control box 18 in the frame 7, places the frame 7 and is connected with multiunit second bolt 6, and second bolt 6 passes places frame 7 and butt at control box 18 surface, places the control box 18 of placing that can be stable in the frame 7, and second bolt 6 further fixes control box 18, guarantees its stability.

Solar device includes solar panel 2, and solar panel 2 is connected with base 4, and base 4 is connected with support 3, and support 3 connects solar panel 2, and base 4 is connected with ring cover 19, and ring cover 19 is connected with first bolt 5, and first bolt 5 passes ring cover 19 and butt at ring pole 20 outer walls, and the elasticity of control first bolt 5 can adjust solar panel 2's direction.

The supporting disk 28 is provided with four groups of first slots 24 which are uniformly distributed, the first slots 24 are rotatably connected with the round bar pin 14, the outer wall of the ground column 13 is provided with a plurality of groups of second slots 12 which are uniformly arranged, the second slots 12 are rotatably connected with the rotating sleeve 11, and different slots do not influence the movement of different parts.

The outer wall of the threaded rod 23 is connected with the inner fixing disc 32 and the fixing ring 25 through the blocking rings 22, the blocking rings 22 and the threaded rod 23 are connected with the inner fixing disc 32 and the fixing ring 25 in a rotating mode, and the blocking rings 22 guarantee the rotating stability of the threaded rod 23.

The upper end of the threaded rod 23 is provided with a square hole 21, a through hole 31 penetrating through the upper end of the ground column 13, the mounting plate 9 and the base 8 is formed above the square hole 21, a special wrench penetrates through the through hole 31 to be connected with the square hole 21 above the threaded rod 23, and the wrench is rotated to drive the threaded rod 23 to rotate.

The ground post 13 in this embodiment can be directly inserted underground, pin 10 and round bar round pin 14 can all be directly inserted in the ground, directly guarantee its stability, compare in traditional concrete bottom piece save time, raise the efficiency, insert ground post 13 underground, until pin 10I insert underground completely, pass through the through-hole 31 with purpose-made spanner and be connected with the threaded rod 23 in the square hole 21 of top, turn the spanner and drive threaded rod 23 rotatory, threaded rod 23 drives the thread bush 26, lifting disc 27, support column 29 and supporting disk 28 rise, supporting disk 28 rises and drives round bar round pin 14 and outwards extends and insert in the ground, the stability of ground post 13 can be guaranteed to many round bar round pin 14, guarantee the stability of the device above ground post 13 simultaneously, when needing to extract ground post 13, threaded rod 23 is just, withdraw round bar pin 14, ground post 13 can also be recycled and used in next place, save cost and resource.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. The utility model provides an installation device for automatic monitor terminal of GNSS, including ground post (13), characterized in that, ground post (13) upper end can be dismantled and be connected with base (8), base (8) upper end is connected with complete global navigation satellite system, ground post (13) inner wall is connected with interior fixed disk (32), interior fixed disk (32) rotate and are connected with threaded rod (23), threaded rod (23) lower extreme is connected with solid fixed ring (25), gu fixed ring (25) connect ground post (13), threaded rod (23) threaded connection has thread bush (26), thread bush (26) are connected with lifting disk (27), lifting disk (27) are connected with support column (29), support column (29) are connected with three groups of evenly arranged supporting disk (28), supporting disk (28) rotate and are connected with four groups of evenly distributed's round bar round pin (14), round bar round pin (14) outer wall is provided with commentaries on classics cover (11), the rotating sleeve (11) is rotatably connected with a ground column (13), the inner fixing disc (32) is connected with a guide rod (30) which is symmetrical to the threaded rod (23), the guide rod (30) is connected with a lifting disc (27) in a sliding mode, the guide rod (30) penetrates through the lifting disc (27) to be connected with the ground column (13), the outer wall of the ground column (13) is connected with an outer fixing disc (15), and the outer fixing disc (15) is connected with four groups of pins (10) which are evenly distributed.

2. The mounting device for the GNSS automation monitoring terminal according to claim 1, characterized in that a mounting plate (9) is connected to the upper end of the ground pillar (13), four groups of anchor bolts (17) are connected to the mounting plate (9), a base (8) is connected to the upper ends of the anchor bolts (17), and nuts (16) are connected to the anchor bolts (17) through the base (8).

3. The installation device for the GNSS automation monitoring terminal as claimed in claim 1, wherein the global satellite navigation device comprises a ring rod (20) connected with the base (8), the outer wall of the ring rod (20) is connected with a control device and a solar device, and the upper end of the ring rod (20) is connected with the monitoring device (1).

4. The mounting device for the GNSS automation monitoring terminal according to claim 2, wherein the control device comprises a placing frame (7) connected with the outer wall of the circular rod (20), a control box (18) is placed in the placing frame (7), the placing frame (7) is connected with a plurality of groups of second bolts (6), and the second bolts (6) penetrate through the placing frame (7) and abut against the outer surface of the control box (18).

5. The mounting device for the GNSS automation monitoring terminal according to claim 2, wherein the solar device comprises a solar panel (2), the solar panel (2) is connected with a base (4), the base (4) is connected with a support (3), the support (3) is connected with the solar panel (2), the base (4) is connected with a ring sleeve (19), the ring sleeve (19) is connected with a first bolt (5), and the first bolt (5) penetrates through the ring sleeve (19) and abuts against the outer wall of the ring rod (20).

6. The mounting device for the GNSS automatic monitoring terminal according to claim 1, wherein the supporting plate (28) is provided with four sets of first slots (24) uniformly distributed, the first slots (24) are rotatably connected with the round bar pin (14), the outer wall of the ground pillar (13) is provided with a plurality of sets of second slots (12) uniformly arranged, and the second slots (12) are rotatably connected with the rotating sleeve (11).

7. The mounting device for the GNSS automation monitoring terminal as claimed in claim 1, wherein the connection between the outer wall of the threaded rod (23) and the inner fixed disk (32) and the fixed ring (25) is connected with a baffle ring (22), and the baffle ring (22) and the threaded rod (23) are rotatably connected with the inner fixed disk (32) and the fixed ring (25).

8. The mounting device for the GNSS automation monitoring terminal as claimed in claim 5, wherein a square hole (21) is formed at the upper end of the threaded rod (23), and a through hole (31) penetrating through the upper end of the ground pillar (13), the mounting plate (9) and the base (8) is formed above the square hole (21).