CN221078946U - Integrated GNSS monitoring device - Google Patents

Abstract

The application relates to an integrated GNSS monitoring device, which comprises a base, a support column arranged on the base, a monitoring box arranged outside the support column in a lifting manner and a GNSS receiver host arranged in the monitoring box, wherein the support column is arranged on the base; the base is provided with the slide hole, the base is in the slide is connected with the threaded rod in the slide hole, the base is provided with the drive assembly of drive threaded rod motion, the top of threaded rod with the monitoring case is detachable connection. The application has the effect of being convenient for adjusting the height of the monitoring box.

Description

Integrated GNSS monitoring device

Technical Field

The application relates to the technical field of GNSS monitoring, in particular to an integrated GNSS monitoring device.

Background

At present, the GNSS monitoring device is often used for monitoring landslide, mud-rock flow, side slope, foundation pit and other places, the installation of the traditional GNSS monitoring device mostly needs to use concrete to build observation piers, devices such as GNSS receivers, solar panels, batteries and operation hosts are respectively arranged around the observation piers, but the installation structure has a plurality of modules, has large field workload, and has large material transportation workload on mountain areas or geological disasters, especially the transportation of cement, sand stone and construction water, and simultaneously needs to carry out soil excavation operation on site, needs to carry out concrete stirring operation on a small site, has higher requirements on environment, and has certain destructive effect on the environment, which is a problem faced at present.

The Chinese patent with publication number CN201921319463.9 in the related art provides an integrated GNSS monitoring device convenient for field installation, belonging to the technical field of deformation monitoring devices in the engineering measurement field; the device comprises a base arranged on the ground; the base is of a plate-shaped structure, and a support column is arranged on the upper top surface of the base; the left side and the right side of the upper end of the support column are provided with cross beams which extend out of the cantilever along the radial direction of the support column; solar panels which are obliquely arranged are respectively arranged on the left and right cross beams; the lower end of the support column is provided with a functional box which can move up and down along the height direction of the support column; a GNSS receiver host, a storage battery and a communication module are arranged in the functional box; the storage battery is respectively connected with the solar panel and the GNSS receiver host through wires, and the GNSS receiver host is connected with the communication module through wires; the technical scheme effectively solves the problems of complex operation, large workload and the like when the GNSS monitoring device is installed currently.

The related art in the above has the following drawbacks: when the position of the box body needs to be adjusted, the fine box body needs to slide along the support column, the fine box body is fixed with the bolt and the nut through the clamping sleeve, and before the clamping sleeve is fixed firmly with the support column, workers need to drag the box body, so that the problem of increasing the labor intensity of the workers exists.

Disclosure of utility model

In order to solve the problem that a worker needs to hold the monitoring box when adjusting the height of the monitoring box, the application provides an integrated GNSS monitoring device.

The application provides an integrated GNSS monitoring device which adopts the following technical scheme:

An integrated GNSS monitoring device comprises a base, a support column arranged on the base, a monitoring box arranged outside the support column in a lifting manner and a GNSS receiver host arranged in the monitoring box; the base is provided with the slide hole, the base is in the slide is connected with the threaded rod in the slide hole, the base is provided with the drive assembly of drive threaded rod motion, the top of threaded rod with the monitoring case is detachable connection.

Still further, the drive assembly includes thread bush and power spare, the thread bush with the base rotates to be connected, the thread bush with threaded rod threaded connection, power spare is used for the drive the thread bush rotates.

Still further, the power member is provided as a plurality of handles, the handle length direction being along the radial direction of the cross-sectional circle of the threaded sleeve.

Still further, two rotating blocks are fixedly connected with the bottom end of the thread bush, the base is provided with a rotating groove at the position of the sliding hole, the rotating blocks are L-shaped, the cross section of the inner wall of the rotating groove is T-shaped, the horizontal section of the rotating blocks slides in the part with small opening of the rotating groove, and the horizontal section of the rotating blocks slides in the part with large opening of the rotating groove.

Still further, monitor bottom of the case portion fixedly connected with dead lever, the dead lever overcoat is equipped with rotatory cover, rotatory cover inner wall is provided with the internal thread, the threaded rod with rotatory cover threaded connection, the dead lever with be provided with the joint subassembly between the rotatory cover.

Still further, the joint subassembly includes joint ring and butt ring, the joint ring with the one end fixed connection of threaded rod is kept away from to the swivel mount, the butt ring with the dead lever is close to one end fixed connection of threaded rod, the joint ring with the butt ring butt, the joint ring cover is established outside the dead lever.

Still further, rotary sleeve outer wall fixedly connected with a plurality of archs, protruding length direction is along the axis direction setting of rotary sleeve, a plurality of protruding round the equidistant distribution of perisporium of rotary sleeve.

In summary, the beneficial technical effects of the application are as follows: with dead lever tip and threaded rod tip butt, during the rotatory cover of staff drive, rotatory cover and threaded rod threaded connection, the joint ring follows rotatory cover rotation and towards the joint ring motion, until joint ring and joint ring butt time, under the joint effect between rotatory cover and threaded rod threaded connection and joint ring and the joint ring, realize the fixed effect of monitoring case and threaded rod this moment, the handle is exerted and is made its pivoted effort to the thread bush, the pivoted piece rotates in the pivoted groove, because the rotation of monitoring case is restricted by the support column, the monitoring case can only be followed support column length direction and slided, the monitoring case is driven along the support column motion, and then the staff need lift the monitoring case again and can realize the effect of adjusting the monitoring case height.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is an enlarged view at B in fig. 2.

Reference numerals: 1. a base; 2. a support column; 3. a monitoring box; 4. a slide hole; 5. a threaded rod; 6. a limiting block; 7. a limiting groove; 8. a handle; 9. a thread sleeve; 10. a protrusion; 11. a rotating block; 12. a rotating groove; 13. a fixed rod; 14. a rotating sleeve; 15. a clamping ring; 16. abutting the ring.

Detailed Description

The following description of the embodiments of the present application will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the application are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The embodiment of the application discloses an integrated GNSS monitoring device. Referring to fig. 1 and 2, an integrated GNSS monitoring device includes a base 1, a support column 2 installed on the base 1, a monitoring box 3 lifting and falling outside the support column 2, and a GNSS receiver host set in the monitoring box 3, in this embodiment, a solar panel for supplying power is further provided at the top end of the support column 2, a storage battery and a communication module are further installed in the detection box, wherein the storage battery is connected with the solar panel and the GNSS receiver host respectively through wires, and the GNSS receiver host is connected with the communication module through wires.

In order to facilitate the adjustment of the position of the monitoring box 3, the base 1 is provided with a slide hole 4, the base 1 is connected with a threaded rod 5 in a sliding way in the slide hole 4, the base 1 is fixedly connected with a limiting block 6 on the inner wall of the slide hole 4, the threaded rod 5 is provided with a limiting groove 7 along the length direction, the limiting block 6 slides in the limiting groove 7, two ends of the limiting groove 7 are closed, and the limiting effect on the rotation of the threaded rod 5 is realized under the cooperation of the limiting block 6 and the limiting groove 7; the base 1 is provided with the drive assembly who is used for driving threaded rod 5 motion, the slip outside support column 2 is established to monitor case 3 cover, drive assembly includes thread bush 9 and power spare, thread bush 9 rotates with base 1 to be connected, thread bush 9 and threaded rod 5 threaded connection, power spare is used for driving thread bush 9 rotation, thread bush 9 bottom fixedly connected with two rotating blocks 11, two rotating blocks 11 are the symmetry setting for the axis direction of threaded rod 5, rotating block 11 sets up to the L form, base 1 is provided with rotary groove 12 in the position of slide hole 4, the inner wall cross section of rotary groove 12 sets up to the T shape, the horizontal segment of rotating block 11 slides in the little part of rotary groove 12 opening, the horizontal segment of rotating block 11 slides in the big part of rotary groove 12 opening, the motion of rotating block 11 along vertical direction is restricted this moment, thread bush 9 can only rotate on base 1.

Referring to fig. 1 and 2, the power piece sets up to a plurality of handles 8, handle 8 length direction sets up along the radial direction of thread bush 9 cross-section circle, handle 8 sets up to two in this embodiment, two handles 8 are symmetrical setting for the axis direction of threaded rod 5, handle 8 is used for exerting its pivoted effort to thread bush 9, when handle 8 exerts its pivoted effort to thread bush 9, rotatory piece 11 rotates in rotating groove 12, because monitor box 3's rotation is restricted by support column 2, monitor box 3 only can slide along support column 2 length direction, monitor box 3 is driven along support column 2 motion, and then the staff needs to lift monitor box 3 again and can realize the effect of adjusting monitor box 3 height.

Referring to fig. 1 and 3, in order to be convenient for assemble monitoring devices, the top of threaded rod 5 is for dismantling the connection with monitoring case 3, monitoring case 3 bottom fixedly connected with dead lever 13, dead lever 13 overcoat is equipped with rotatory cover 14, rotatory cover 14 inner wall is provided with the internal thread, threaded rod 5 and rotatory cover 14 threaded connection, be provided with the joint subassembly between dead lever 13 and the rotatory cover 14, the joint subassembly includes joint ring 15 and butt ring 16, the one end fixed connection of threaded rod 5 is kept away from to joint ring 15 and rotatory cover 14, butt ring 16 is close to the one end fixed connection of threaded rod 5 with dead lever 13, joint ring 15 and butt ring 16 butt, joint ring 15 cover is established outside dead lever 13, the external diameter of joint ring 15 is greater than the internal diameter of butt ring 16, avoid joint ring 15 to pass butt ring 16.

The outer wall fixedly connected with a plurality of protruding 10 of swivel housing 14, protruding 10 length direction sets up along the axis direction of swivel housing 14, a plurality of protruding 10 are equidistant around the perisporium equidistant distribution of swivel housing 14, protruding 10 is used for increasing staff's intensity of labour, with dead lever 13 tip and threaded rod 5 tip butt, when the swivel housing 14 is driven to the staff, swivel housing 14 and threaded rod 5 threaded connection, joint ring 15 follows swivel housing 14 rotation and moves towards butt ring 16, until joint ring 15 and butt ring 16 butt time, at this moment under the joint effect between swivel housing 14 and threaded rod 5 threaded connection and joint ring 15 and butt ring 16, realize the fixed effect of monitoring box 3 and threaded rod 5.

The implementation principle of the integrated GNSS monitoring device provided by the embodiment of the application is as follows: when the end of the fixed rod 13 is abutted against the end of the threaded rod 5, the rotating sleeve 14 is in threaded connection with the threaded rod 5 when a worker drives the rotating sleeve 14, the clamping ring 15 rotates along with the rotating sleeve 14 and moves towards the abutting ring 16 until the clamping ring 15 abuts against the abutting ring 16, at this time, the fixing effect of the monitoring box 3 and the threaded rod 5 is achieved under the action of the threaded connection of the rotating sleeve 14 and the threaded rod 5 and the clamping effect between the clamping ring 15 and the abutting ring 16, when the handle 8 applies the acting force for enabling the threaded sleeve 9 to rotate, the rotating block 11 rotates in the rotating groove 12, the monitoring box 3 only slides along the length direction of the supporting column 2 because the rotation of the monitoring box 3 is limited by the supporting column 2, the monitoring box 3 is driven to move along the supporting column 2, and then the worker needs to lift the monitoring box 3 again, so that the height of the monitoring box 3 can be adjusted.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. The integrated GNSS monitoring device is characterized by comprising a base (1), a support column (2) arranged on the base (1), a monitoring box (3) arranged outside the support column (2) in a lifting manner and a GNSS receiver host arranged in the monitoring box (3); base (1) is provided with slide hole (4), base (1) is in sliding connection has threaded rod (5) in slide hole (4), base (1) are provided with the drive threaded rod (5) motion's drive assembly, the top of threaded rod (5) with monitoring case (3) are detachable connection, base (1) are in lateral wall fixedly connected with restriction piece (6) of slide hole (4), the perisporium of threaded rod (5) is provided with restriction groove (7), restriction groove (7) length direction is followed threaded rod (5) length direction sets up just the both ends of restriction groove (7) are closed setting.

2. An integrated GNSS monitoring device according to claim 1 characterized in that the drive assembly comprises a threaded sleeve (9) and a power member, the threaded sleeve (9) being in rotational connection with the base (1), the threaded sleeve (9) being in threaded connection with the threaded rod (5), the power member being for driving the threaded sleeve (9) in rotation.

3. An integrated GNSS monitoring device according to claim 2 characterized in that the power means are provided as a plurality of handles (8), the length direction of the handles (8) being along the radial direction of the cross-sectional circle of the threaded sleeve (9).

4. An integrated GNSS monitoring apparatus according to claim 3, wherein the screw sleeve (9) is fixedly connected with two rotating blocks (11) at the bottom end, the base (1) is provided with a rotating groove (12) at the position of the slide hole (4), the rotating blocks (11) are L-shaped, the inner wall section of the rotating groove (12) is T-shaped, the horizontal section of the rotating blocks (11) slides in the small opening part of the rotating groove (12), and the horizontal section of the rotating blocks (11) slides in the large opening part of the rotating groove (12).

5. The integrated GNSS monitoring device according to claim 4, wherein a fixed rod (13) is fixedly connected to the bottom of the monitoring box (3), a rotary sleeve (14) is sleeved outside the fixed rod (13), an internal thread is arranged on the inner wall of the rotary sleeve (14), the threaded rod (5) is in threaded connection with the rotary sleeve (14), and a clamping assembly is arranged between the fixed rod (13) and the rotary sleeve (14).

6. The integrated GNSS monitoring device according to claim 5, wherein the clamping assembly comprises a clamping ring (15) and a butt ring (16), the clamping ring (15) is fixedly connected with one end of the rotary sleeve (14) far away from the threaded rod (5), the butt ring (16) is fixedly connected with one end of the fixed rod (13) near to the threaded rod (5), the clamping ring (15) is in butt joint with the butt ring (16), and the clamping ring (15) is sleeved outside the fixed rod (13).

7. The integrated GNSS monitoring apparatus of claim 6, wherein the outer wall of the rotating sleeve (14) is fixedly connected with a plurality of protrusions (10), the length direction of the protrusions (10) is along the axis direction of the rotating sleeve (14), and the protrusions (10) are distributed at equal intervals around the peripheral wall of the rotating sleeve (14).