CN111719606A - Multi-sensor integrated automatic slope deformation monitoring device - Google Patents

Abstract

The invention discloses a multi-sensor integrated automatic slope deformation monitoring device which comprises a bottom plate, wherein a main box is fixedly arranged at the center of the upper part of the bottom plate, adjusting boxes are arranged on the bottom plate on the left side and the right side of the main box, adjusting cavities are formed in the adjusting boxes, threaded columns are vertically and movably arranged in the adjusting cavities, first sliding holes are formed in the positions, corresponding to the threaded columns, of the left side and the right side of the bottom plate, the bottoms of the threaded columns extend out of the corresponding first sliding holes, connecting seats are fixedly connected with the threaded columns, fixing cones are fixedly connected to the bottoms of the connecting seats, mounting plates are movably arranged above the main box, and solar photovoltaic panels are fixedly connected to the upper parts of the mounting plates. According to the invention, the threaded column is vertically and movably arranged in the adjusting cavity, the bottom end of the threaded column is connected with the fixed cone through the connecting seat, the fixed cone is driven to move up and down by rotating the adjusting handle, so that the bottom plate is positioned horizontally, the fixed cone is inserted into the ground, the monitoring device is fixed, and the stability of the monitoring device is improved.

Description

Multi-sensor integrated automatic slope deformation monitoring device

Technical Field

The invention relates to a monitoring device, in particular to a multi-sensor integrated automatic slope deformation monitoring device.

Background

Subgrade base deformation is a phenomenon of subgrade instability. Most of the filled embankment base is deformed due to the huge filling soil pressure and the dynamic load in the vehicle operation process. There are roughly four types: uneven settlement of the substrate soil; shearing, slipping and deforming the base soil layer; sliding along the soft layer of the substrate; fourthly, roadbed grout turning is generated by vibration liquefaction or freeze thawing. The deformation of the subgrade base occurs mostly in filled embankment sections and is mainly manifested in the form of slippage, extrusion and collapse. The foundation of the roadbed is required to have sufficient bearing capacity by the common embankment and the high fill embankment, and the embankment and the high fill embankment not only bear the dynamic load generated by vehicles in operation, but also bear great fill pressure, so the deformation property and the deformation amount of the foundation soil are mainly determined by the mechanical property of the foundation soil, the inclination degree of the foundation surface, the property and the shape of a soft layer or a weak structural surface and the like. In addition, hydrogeological conditions are also contributing factors to the instability of the basement, which tends to cause large plastic deformations of the basement, causing the destruction of the subgrade. If there is a weak mud interlayer under the roadbed, when the inclination is consistent with the slope direction, if the excavation is performed below the roadbed or the filling is performed above the roadbed to increase the weight, the whole embankment will slide.

When monitoring slope deformation, because the ground is rugged and uneven, it is unstable to lead to traditional monitoring devices to place, influences the monitoring result easily to traditional monitoring devices need be for the power supply of internal component, has increased the energy consumption.

Disclosure of Invention

The invention aims to provide a multi-sensor integrated automatic slope deformation monitoring device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an integrated side slope of multisensor warp automatic monitoring device, includes the bottom plate, the fixed main case that is provided with in top central authorities department of bottom plate, be provided with the regulating box on the bottom plate of the left and right sides of main case, set up the regulation chamber in the regulating box, the vertical activity of regulation intracavity is provided with the screw thread post, the bottom plate left and right sides corresponds position department with the screw thread post and has seted up first slide opening, the first slide opening that corresponds is stretched out to the bottom of screw thread post, and fixedly connected with connecting seat, the fixed awl of bottom fixedly connected with of connecting seat, the top activity of main case is provided with the mounting panel, the top fixedly connected with solar photovoltaic board of mounting panel.

As a further scheme of the invention: the threaded column at the bottom of the adjusting cavity is connected with a first bevel gear in a threaded manner, the outer side of the first bevel gear is vertically meshed with a second bevel gear upwards, the second bevel gear is fixedly connected to the inner end of the rotating column, second sliding holes are formed in the positions, corresponding to the rotating column, on the side walls of the left side and the right side of the adjusting box, the outer end of the rotating shaft horizontally and vertically penetrates through the second sliding holes outwards to extend out of the adjusting box, and an adjusting handle is fixedly connected with the adjusting box.

As a still further scheme of the invention: the first bevel gear is provided with a sliding hole at a position corresponding to the threaded column, external threads are uniformly laid on the outer wall of the threaded column, and matched internal threads are uniformly laid on the inner wall of the sliding hole.

As a still further scheme of the invention: first slide rails are annularly laid on the bottom plate below the first bevel gear, first pulleys are fixedly mounted at positions corresponding to the first slide rails on the left side and the right side of the bottom of the first bevel gear, and telescopic limiting rods are vertically connected between the top end of the threaded column and the top wall in the adjusting cavity.

As a still further scheme of the invention: the utility model discloses a supporting device for a refrigerator, including mounting panel, all vertical flexible bracing piece that is provided with between the bottom left and right sides of mounting panel and the top of main case, the bottom of flexible bracing piece and the top fixed connection of main case, the top is articulated with the mounting panel.

As a still further scheme of the invention: the top of flexible bracing piece is articulated perpendicularly and is provided with the slider, first spout has transversely been seted up to central department in the mounting panel, the second spout has been seted up to the central department of first spout, second spout and first spout intercommunication, the slider slides in first spout, the top of flexible bracing piece is passed the second spout and is articulated with the slider.

As a still further scheme of the invention: second slide rails are laid on the side walls of the front side and the rear side of the sliding block in the first sliding groove, and matched second pulleys are fixedly mounted on the side walls of the front side and the rear side of the sliding block corresponding to the second slide rails.

As a still further scheme of the invention: a storage battery is fixedly arranged in the main box, and an inverter is fixedly arranged on one side of the storage battery.

As a still further scheme of the invention: the front of the main box is hinged with a movable box door, and the movable end of the movable box door is fixedly connected with a handle.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the threaded column is vertically and movably arranged in the adjusting cavity, the bottom end of the threaded column is connected with the fixed cone through the connecting seat, the rotating shaft is driven to rotate by rotating the adjusting handle, so that the second bevel gear is driven to rotate, the first bevel gear is driven to rotate by vertically engaging and connecting the second bevel gear with the first bevel gear, and the first bevel gear is in threaded connection with the threaded column, so that the threaded column 5 moves up and down, the fixed cone is driven to move up and down, the bottom plate is positioned horizontally, the fixed cone is inserted into the ground, the monitoring device is fixed, and the stability of the monitoring device is improved.

2. According to the solar photovoltaic power generation monitoring device, the solar photovoltaic panel is arranged above the main box to absorb solar energy, the inverter converts the solar energy into electric energy, the electric energy is stored in the storage battery and is used by an electric element in the monitoring device, and energy loss is greatly reduced.

3. According to the invention, the telescopic support rod is arranged between the mounting plate and the main box, the sliding block hinged to the top end of the telescopic support rod is in sliding connection with the first sliding groove of the mounting plate, and the angle of the solar photovoltaic panel is adjusted by the telescopic support rod, so that the solar photovoltaic panel is maximally illuminated.

Drawings

Fig. 1 is a schematic structural diagram of a multi-sensor integrated slope deformation automatic monitoring device.

Fig. 2 is an enlarged schematic view of the structure of the region a in fig. 1.

Fig. 3 is an enlarged schematic view of the structure of the region B in fig. 1.

Fig. 4 is a schematic view of a connection structure of a sliding block and a second sliding groove in a multi-sensor integrated slope deformation automatic monitoring device.

Fig. 5 is a front view of a multi-sensor integrated automatic slope deformation monitoring device.

In the figure: the solar energy photovoltaic power generation device comprises a base plate 1, a main box 2, an adjusting box 3, an adjusting cavity 4, a threaded column 5, a first sliding hole 6, a first bevel gear 7, a second bevel gear 8, a rotating column 9, a second sliding hole 10, an adjusting handle 11, a telescopic limiting rod 12, a connecting seat 13, a fixed cone 14, a telescopic supporting rod 15, a mounting plate 16, a solar photovoltaic panel 17, a sliding block 18, a first sliding groove 19, a second sliding groove 20, a second sliding rail 21, a second sliding rail 22, a storage battery 23, an inverter 24, a movable box door 25, a handle 26, a first sliding rail 27 and a first sliding wheel 28.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example one

Referring to fig. 1-5, a multi-sensor integrated automatic slope deformation monitoring device comprises a bottom plate 1, a main box 2 is fixedly arranged at the center of the upper portion of the bottom plate 1, adjusting boxes 3 are arranged on the bottom plate 1 on the left side and the right side of the main box 2, adjusting cavities 4 are formed in the adjusting boxes 3, threaded columns 5 are vertically and movably arranged in the adjusting cavities 4, first sliding holes 6 are formed in the positions, corresponding to the threaded columns 5, of the left side and the right side of the bottom plate 1, the bottom of each threaded column 5 extends out of the corresponding first sliding hole 6, a connecting seat 13 is fixedly connected with the bottom of the connecting seat 13, a fixing cone 14 is fixedly connected to the bottom of the connecting seat 13, the fixing cone 14 is driven by the threaded columns 5 to move up and down, the fixing cone 14 is inserted into the ground to fix the monitoring device, a mounting plate 16 is movably arranged above the main.

A first bevel gear 7 is connected with the threaded column 5 at the bottom in the adjusting cavity 4 in a threaded manner, a second bevel gear 8 is vertically meshed and connected with the outer side of the first bevel gear 7 upwards, the second bevel gear 8 is fixedly connected with the inner end of the rotating column 9, second sliding holes 10 are arranged on the side walls of the left side and the right side of the adjusting box 3 corresponding to the rotating column 9, the outer end of the rotating shaft 9 horizontally and vertically penetrates through the second sliding holes 10 outwards to extend out of the adjusting box 3 and is fixedly connected with an adjusting handle 11, the rotating shaft 9 is driven to rotate by rotating the adjusting handle 11, so that the second bevel gear 8 is driven to rotate, because the second bevel gear 8 is vertically meshed with the first bevel gear 7, the first bevel gear 7 is driven to rotate, as the first bevel gear 7 is in threaded connection with the threaded column 5, the threaded column 5 moves up and down to drive the fixed cone 14 to move up and down, so that the bottom plate 1 is horizontal.

The first bevel gear 7 is provided with a slide hole at a position corresponding to the threaded column 5, external threads are uniformly laid on the outer wall of the threaded column 5, and matched internal threads are uniformly laid on the inner wall of the slide hole.

First slide rail 27 has been laid to the annular on bottom plate 1 of first bevel gear 7 below, the equal fixed mounting in first bevel gear 7 bottom left and right sides and the first slide rail 27 corresponding position department has first pulley 28, through sliding first bevel gear 7 and adjusting the interior bottom of chamber 4, prescribe a limit to first bevel gear 7's position, strengthen its stability, vertically be connected with flexible gag lever post 12 between the roof in 6 tops of screw thread post and the adjusting chamber 4, prescribe a limit to screw thread post 5 at vertical ascending position of side through flexible gag lever post 12, make it move from top to bottom, when avoiding first bevel gear 7 rotatory, screw thread post 5 is rotatory along with it.

All vertically be provided with flexible bracing piece 15 between the bottom left and right sides of mounting panel 16 and the top of main tank 2, flexible bracing piece 15 is electronic hydraulic rod, the bottom of flexible bracing piece 15 and the top fixed connection of main tank 2, and the top is articulated with mounting panel 16, adjusts the angle of solar photovoltaic board 17 through the flexible of flexible bracing piece 15, makes its at utmost receive the illumination.

The top of flexible bracing piece 15 is articulated perpendicularly and is provided with slider 18, first spout 19 has transversely been seted up to central department in the mounting panel 16, second spout 20 has been seted up to central department of first spout 19, second spout 20 and first spout 19 intercommunication, slider 18 slides in first spout 19, second spout 20 is passed on the top of flexible bracing piece 15 and slider 18 is articulated, when flexible bracing piece 15 is flexible, two sliders 18 all are located and slide in first spout 20, thereby adjust the angle of solar photovoltaic board 17.

Second slide rails 21 are respectively laid on the front side wall and the rear side wall of the slide block 18 in the first slide groove 19, and matched second pulleys 22 are respectively fixedly mounted on the front side wall and the rear side wall of the slide block 18 corresponding to the second slide rails 21.

The storage battery 23 is fixedly installed in the main box 3, the inverter 24 is fixedly installed on one side of the storage battery 23, other electrical elements for the monitoring device are further installed in the main box 3, the solar photovoltaic panel 17 absorbs solar energy, the solar energy is converted into electric energy through the inverter 24, and the electric energy is stored in the storage battery 23 and used by the electrical elements in the monitoring device.

Example two

In order to facilitate maintenance and replacement of the electric components in the main box 3, the present embodiment optimizes this as follows.

Referring to fig. 1-5, a multi-sensor integrated automatic slope deformation monitoring device comprises a bottom plate 1, a main box 2 is fixedly arranged at the center of the upper portion of the bottom plate 1, adjusting boxes 3 are arranged on the bottom plate 1 on the left side and the right side of the main box 2, adjusting cavities 4 are formed in the adjusting boxes 3, threaded columns 5 are vertically and movably arranged in the adjusting cavities 4, first sliding holes 6 are formed in the positions, corresponding to the threaded columns 5, of the left side and the right side of the bottom plate 1, the bottom of each threaded column 5 extends out of the corresponding first sliding hole 6, a connecting seat 13 is fixedly connected with the bottom of the connecting seat 13, a fixing cone 14 is fixedly connected to the bottom of the connecting seat 13, the fixing cone 14 is driven by the threaded columns 5 to move up and down, the fixing cone 14 is inserted into the ground to fix the monitoring device, a mounting plate 16 is movably arranged above the main.

A first bevel gear 7 is connected with the threaded column 5 at the bottom in the adjusting cavity 4 in a threaded manner, a second bevel gear 8 is vertically meshed and connected with the outer side of the first bevel gear 7 upwards, the second bevel gear 8 is fixedly connected with the inner end of the rotating column 9, second sliding holes 10 are arranged on the side walls of the left side and the right side of the adjusting box 3 corresponding to the rotating column 9, the outer end of the rotating shaft 9 horizontally and vertically penetrates through the second sliding holes 10 outwards to extend out of the adjusting box 3 and is fixedly connected with an adjusting handle 11, the rotating shaft 9 is driven to rotate by rotating the adjusting handle 11, so that the second bevel gear 8 is driven to rotate, because the second bevel gear 8 is vertically meshed with the first bevel gear 7, the first bevel gear 7 is driven to rotate, as the first bevel gear 7 is in threaded connection with the threaded column 5, the threaded column 5 moves up and down to drive the fixed cone 14 to move up and down, so that the bottom plate 1 is horizontal.

The first bevel gear 7 is provided with a slide hole at a position corresponding to the threaded column 5, external threads are uniformly laid on the outer wall of the threaded column 5, and matched internal threads are uniformly laid on the inner wall of the slide hole.

First slide rail 27 has been laid to the annular on bottom plate 1 of first bevel gear 7 below, the equal fixed mounting in first bevel gear 7 bottom left and right sides and the first slide rail 27 corresponding position department has first pulley 28, through sliding first bevel gear 7 and adjusting the interior bottom of chamber 4, prescribe a limit to first bevel gear 7's position, strengthen its stability, vertically be connected with flexible gag lever post 12 between the roof in 6 tops of screw thread post and the adjusting chamber 4, prescribe a limit to screw thread post 5 at vertical ascending position of side through flexible gag lever post 12, make it move from top to bottom, when avoiding first bevel gear 7 rotatory, screw thread post 5 is rotatory along with it.

All vertically be provided with flexible bracing piece 15 between the bottom left and right sides of mounting panel 16 and the top of main tank 2, flexible bracing piece 15 is electronic hydraulic rod, the bottom of flexible bracing piece 15 and the top fixed connection of main tank 2, and the top is articulated with mounting panel 16, adjusts the angle of solar photovoltaic board 17 through the flexible of flexible bracing piece 15, makes its at utmost receive the illumination.

The top of flexible bracing piece 15 is articulated perpendicularly and is provided with slider 18, first spout 19 has transversely been seted up to central department in the mounting panel 16, second spout 20 has been seted up to central department of first spout 19, second spout 20 and first spout 19 intercommunication, slider 18 slides in first spout 19, second spout 20 is passed on the top of flexible bracing piece 15 and slider 18 is articulated, when flexible bracing piece 15 is flexible, two sliders 18 all are located and slide in first spout 20, thereby adjust the angle of solar photovoltaic board 17.

Second slide rails 21 are respectively laid on the front side wall and the rear side wall of the slide block 18 in the first slide groove 19, and matched second pulleys 22 are respectively fixedly mounted on the front side wall and the rear side wall of the slide block 18 corresponding to the second slide rails 21.

The storage battery 23 is fixedly installed in the main box 3, the inverter 24 is fixedly installed on one side of the storage battery 23, other electrical elements for the monitoring device are further installed in the main box 3, the solar photovoltaic panel 17 absorbs solar energy, the solar energy is converted into electric energy through the inverter 24, and the electric energy is stored in the storage battery 23 and used by the electrical elements in the monitoring device.

The front surface of the main box 2 is hinged with a movable box door 25, the movable end of the movable box door 25 is fixedly connected with a handle 26, and the movable box door 25 is opened through the handle 26, so that the maintenance and the replacement of the electric elements in the main box 3 are facilitated.

The working principle of the invention is as follows: the rotating shaft 9 is driven to rotate by rotating the adjusting handle 11, so that the second bevel gear 8 is driven to rotate, because the second bevel gear 8 is vertically meshed with the first bevel gear 7, the first bevel gear 7 is driven to rotate, because the first bevel gear 7 is in threaded connection with the threaded column 5, the threaded column 5 moves up and down to drive the fixed cone 14 to move up and down, so that the bottom plate 1 is horizontal, the fixed cone 14 is inserted into the ground, the monitoring device is fixed, the stability of the monitoring device is improved, meanwhile, the sliding block 18 is driven to slide in the first sliding groove 19 through the extension and retraction of the telescopic supporting rod 15, the angle of the solar photovoltaic panel 17 is adjusted, the solar photovoltaic panel 17 is illuminated to the maximum extent, the solar photovoltaic panel 17 absorbs solar energy, the solar energy is converted into electric energy through the inverter 24 and stored in the storage battery 23 for the electric elements in the monitoring device, and energy loss is greatly reduced.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (9)

1. A multi-sensor integrated automatic slope deformation monitoring device comprises a bottom plate (1), it is characterized in that the upper center of the bottom plate (1) is fixedly provided with a main box (2), the bottom plates (1) at the left side and the right side of the main box (2) are provided with adjusting boxes (3), an adjusting cavity (4) is arranged in the adjusting box (3), a threaded column (5) is vertically and movably arranged in the adjusting cavity (4), the left side and the right side of the bottom plate (1) are provided with first sliding holes (6) corresponding to the threaded columns (5), the bottom of the threaded column (5) extends out of the corresponding first sliding hole (6), and is fixedly connected with a connecting seat (13), the bottom of the connecting seat (13) is fixedly connected with a fixed cone (14), the solar energy photovoltaic solar energy water heater is characterized in that a mounting plate (16) is movably arranged above the main box (2), and a solar photovoltaic plate (17) is fixedly connected above the mounting plate (16).

2. The automatic slope deformation monitoring device integrated with multiple sensors according to claim 1, wherein a first bevel gear (7) is connected to a threaded column (5) at the bottom in the adjusting cavity (4) in a threaded manner, a second bevel gear (8) is vertically meshed upwards and connected to the outer side of the first bevel gear (7), the second bevel gear (8) is fixedly connected to the inner end of the rotating column (9), a second sliding hole (10) is formed in the position, corresponding to the rotating column (9), on the side walls of the left side and the right side of the adjusting box (3), the outer end of the rotating shaft (9) horizontally and vertically penetrates through the second sliding hole (10) outwards to extend out of the adjusting box (3), and an adjusting handle (11) is fixedly connected to the outer end of the rotating shaft.

3. The automatic slope deformation monitoring device integrated by multiple sensors according to claim 1, wherein a sliding hole is formed in the first bevel gear (7) at a position corresponding to the threaded column (5), external threads are uniformly laid on the outer wall of the threaded column (5), and matched internal threads are uniformly laid on the inner wall of the sliding hole.

4. The automatic slope deformation monitoring device integrated with multiple sensors according to claim 1, wherein a first sliding rail (27) is annularly laid on the bottom plate (1) below the first bevel gear (7), first pulleys (28) are fixedly mounted on the left side and the right side of the bottom of the first bevel gear (7) at positions corresponding to the first sliding rail (27), and a telescopic limiting rod (12) is vertically connected between the top end of the threaded column (6) and the inner top wall of the adjusting cavity (4).

5. The automatic slope deformation monitoring device with integrated multiple sensors according to claim 1, wherein telescopic support rods (15) are vertically arranged between the left side and the right side of the bottom of the mounting plate (16) and the top end of the main box (2), the bottom ends of the telescopic support rods (15) are fixedly connected with the top end of the main box (2), and the top ends of the telescopic support rods are hinged to the mounting plate (16).

6. The automatic slope deformation monitoring device with integrated multiple sensors according to claim 5, wherein a sliding block (18) is vertically hinged to the top end of the telescopic supporting rod (15), a first sliding groove (19) is transversely formed in the center of the mounting plate (16), a second sliding groove (20) is formed in the center of the first sliding groove (19), the second sliding groove (20) is communicated with the first sliding groove (19), the sliding block (18) slides in the first sliding groove (19), and the top end of the telescopic supporting rod (15) penetrates through the second sliding groove (20) and is hinged to the sliding block (18).

7. The automatic slope deformation monitoring device with integrated multiple sensors according to claim 6, wherein second sliding rails (21) are laid on the front and rear side walls of the sliding block (18) in the first sliding groove (19), and matched second pulleys (22) are fixedly mounted on the front and rear side walls of the sliding block (18) at positions corresponding to the second sliding rails (21).

8. The automatic slope deformation monitoring device with integrated multiple sensors as claimed in claim 1, wherein a storage battery (23) is fixedly installed in the main box (3), and an inverter (24) is fixedly installed on one side of the storage battery (23).

9. The automatic slope deformation monitoring device with integrated multiple sensors as claimed in claim 1, wherein a movable door (25) is hinged to the front of the main box (2), and a handle (26) is fixedly connected to the movable end of the movable door (25).

Images