CN220980766U - Automatic acquisition device of sliding inclinometer - Google Patents

Abstract

The utility model discloses an automatic acquisition device of a sliding inclinometer, which comprises a tripod, a mounting frame, an inclinometer, a lifting mechanism, a limiting mechanism and acquisition equipment, wherein the lifting mechanism comprises a lifting wire disc and a cable depth scale, the limiting mechanism comprises two limiting rods and two ranging guide wheels, the two limiting rods are rotatably arranged on the mounting frame, the centers of the two limiting rods in the length direction are overlapped with the center of the tripod, an angle sensor is arranged on any one ranging guide wheel, the output end of the angle sensor is in communication connection with the input end of the acquisition equipment, and one end of the cable depth scale is connected with an inclinometer probe after penetrating through the two ranging guide wheels. According to the utility model, the power motor can be used for lifting the inclinometer probe to collect monitoring data, so that a great deal of repeated work of site measurement personnel is avoided, the physical strength is saved, the cable can be controlled to be recovered to the wire coil, the site operation is convenient, and only one person is required to operate independently, so that the labor cost is greatly reduced.

Description

Automatic acquisition device of sliding inclinometer

Technical Field

The utility model relates to the technical field of inclinometers, in particular to an automatic acquisition device of a sliding inclinometer.

Background

The inclinometer is an instrument for measuring the vertex angle and azimuth angle of engineering structures such as drilling holes, foundation pits, foundation foundations, walls, dam slopes and the like, and is an in-situ monitoring instrument for obtaining horizontal displacement by measuring the inclination angle of the drilling holes. The method is commonly used for slope monitoring with unknown sliding surface and thicker sliding belt, soft soil deformation monitoring under filling soil, deep foundation pit slope monitoring and retaining wall deformation monitoring, and plays an important role in safety evaluation of links such as construction process.

At present, the inclinometer adopts a manual measurement mode, at least two persons are required to be matched on site to complete data acquisition, one complex lifting and pulling cable is used for enabling the inclinometer body to move upwards, and the other complex lifting and pulling cable is responsible for recording data and calculating an inclination angle value. Such conventional inclinometers are time consuming and laborious, labor intensive and have poor measurement accuracy. Particularly, for the engineering with deeper monitoring main body depth and larger monitoring quantity, a large amount of physical power is required to be consumed for long-time work of workers, and the long-time repeated action causes muscle fatigue so as to influence the working efficiency and the monitoring data precision.

Therefore, an automatic acquisition device of a sliding inclinometer needs to be proposed.

Disclosure of utility model

The utility model aims to solve the defects in the prior art and provides an automatic acquisition device of a sliding inclinometer.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides an automatic acquisition device of a sliding inclinometer, which comprises a tripod, a mounting frame, an inclinometer, a lifting mechanism, a limiting mechanism and acquisition equipment, wherein the mounting frame is arranged on the tripod, the inclinometer comprises an inclinometer pipe and an inclinometer probe, and the inclinometer probe is arranged in the inclinometer pipe;

The lifting mechanism comprises a lifting wire disc and a cable depth scale, the lifting wire disc is rotatably arranged on the mounting frame, and the cable depth scale is wound on the lifting wire disc;

The limiting mechanism comprises two limiting rods and two ranging guide wheels, the two limiting rods are rotatably arranged on the mounting frame, the centers of the two limiting rods in the length direction are overlapped with the centers of the tripod, the axes of the two limiting rods are parallel to the axes of the lifting wire coil, the two ranging guide wheels are respectively sleeved on the two limiting rods one by one, an angle sensor is arranged on any one ranging guide wheel, the output end of the angle sensor is in communication connection with the input end of the acquisition equipment, and one end of the cable depth scale is connected with the inclinometer probe after penetrating through the two ranging guide wheels.

Preferably, the tripod is fixedly connected with the mounting frame through a connecting nut.

Preferably, the lifting wire coil is further provided with a power motor, the power motor is arranged on the left side plate or the right side plate of the mounting frame, two ends of the lifting wire coil are rotatably arranged on the mounting frame through connecting shafts, and an output shaft of the power motor is in transmission connection with the connecting shafts.

Preferably, a power supply, a switch, a first Bluetooth switch and a second Bluetooth switch are arranged in the power motor, a first circuit is formed by a driving circuit of the power motor, the power supply, the switch, the first Bluetooth switch and the distance sensor switch, a second circuit is formed by a driving circuit of the power motor, the power supply, the switch and the second Bluetooth switch, and the first circuit and the second circuit are connected in parallel.

Preferably, an angle sensor switch, a Bluetooth control switch and a power control switch are further arranged on any side plate of the mounting frame, and the angle sensor, the first Bluetooth switch, the second Bluetooth switch and the switch are controlled respectively.

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

According to the utility model, the power motor can be used for lifting the inclinometer probe to collect monitoring data, so that a great deal of repeated work of site measurement personnel is avoided, the physical strength is saved, the cable can be controlled to be recovered to the wire coil, the site operation is convenient, and only one person is required to operate independently, so that the labor cost is greatly reduced.

Drawings

FIG. 1 is a schematic front view of the overall structure of the present utility model;

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

fig. 3 is a circuit diagram of the power motor of the present utility model.

In the figure: 1 tripod, 2 coupling nut, 3 mounting bracket, 4 power motor, 4-1 power, 4-2 switch, 4-3 second bluetooth switch, 4-4 first bluetooth switch, 5 lifting wire coil, 6 gag lever post, 7 range finding guide pulley, 8 cable depth scale, 9 inclinometer, 10 inclinometer probe, 11 acquisition equipment, 12 distance sensor, 13 bluetooth control switch, 14 switch.

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.

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

Referring to fig. 1-3, the embodiment provides an automatic acquisition device of a sliding inclinometer, which comprises a tripod 1, a mounting frame 3, an inclinometer, a lifting mechanism, a limiting mechanism and acquisition equipment 11, wherein the mounting frame 3 is used for mounting the inclinometer, the lifting mechanism and the limiting mechanism, and the mounting frame 3 is arranged on the tripod 1 and is fixedly connected with the tripod through a connecting nut 2.

In this embodiment, the lifting mechanism includes a lifting wire coil 5 and a cable depth scale 8, the lifting wire coil 5 is rotatably disposed on the mounting frame 3, and the cable depth scale 8 is wound on the lifting wire coil 5.

In the present embodiment, the inclinometer includes an inclinometer pipe 9 and an inclinometer probe 10, the inclinometer probe 10 being disposed in the inclinometer pipe 9; the limiting mechanism comprises two limiting rods 6 and two ranging guide wheels 7, the two limiting rods 6 are rotatably arranged on the mounting frame 3, the centers of the two limiting rods in the length direction are overlapped with the centers of the tripod, the axes of the two limiting rods 6 are parallel to the axes of the lifting wire coil 5, the two ranging guide wheels 7 are respectively sleeved on the two limiting rods 6 one by one, an angle sensor is arranged on any one ranging guide wheel 7, the output end of the angle sensor is in communication connection with the input end of the acquisition equipment 11, and one end of the cable depth scale 8 penetrates through the two ranging guide wheels 7 and then is connected with the inclinometer probe 10. The limiting mechanism enables the inclinometer probe to be located near the center position below the tripod, and the depth of the inclinometer probe 10 in the inclinometer pipe 9 can be obtained through the angle sensor.

Specifically, this embodiment is still equipped with power motor 4, power motor 4 installs on the left side board or the right side board of mounting bracket 3, the both ends of lifting wire dish 5 rotate through the connecting axle and set up on mounting bracket 3, power motor 4's output shaft is connected with the connecting axle transmission.

Specifically, a distance sensor 12 is further arranged on the left side plate of the mounting frame 3, and the output end of the distance sensor 12 is connected with the input end of the acquisition equipment 11 through bluetooth communication.

Specifically, a power supply 4-1, a switch 4-2, a first Bluetooth switch 4-4 and a second Bluetooth switch 4-3 are arranged in the power motor 4, a driving circuit of the power motor 4 and the power supply 4-1, the switch 4-2, the first Bluetooth switch 4-4 and the distance sensor switch 12 form a first circuit, a driving circuit of the power motor 4 and the power supply 4-1, the switch 4-2 and the second Bluetooth switch 4-3 form a second circuit, and the first circuit and the second circuit are connected in parallel. An angle sensor switch 12, a Bluetooth control switch 13 and a power supply control switch 14 are further arranged on any side plate of the mounting frame 3, and the angle sensor, the first Bluetooth switch 4-4, the second Bluetooth switch 4-3 and the switch 4-2 are controlled respectively.

The working principle of this embodiment is further described below:

During measurement, the tripod 1 is erected above the inclinometer pipe 9, the connection nut 2 is used for connecting the tripod 1, then the inclinometer probe 10 is placed in the inclinometer pipe 9, and the acquisition equipment 11 and the Bluetooth control switch 13 are connected through Bluetooth (the Bluetooth control switch 13 is used for transmitting data and controlling the Bluetooth switch). After the inclinometer is debugged, the cable depth scale 8 of the first measuring point is placed on a clamping groove of the orifice of the inclinometer pipe 9, and the measuring point data is collected and recorded. The power motor 4 is adopted to drive the lifting wire disc 5 to wind the cable depth scale 8, so that the inclinometer probe 10 is lifted, meanwhile, the lifting length is obtained through the angle sensor, if the lifting distance reaches the preset distance of 50cm, the Bluetooth control switch 13 is used for switching off the first Bluetooth switch 4-4, so that the power motor 4 is powered off, the position of the inclinometer probe 10 in the inclinometer pipe 9 is fixed, after the current measuring point data is acquired and recorded, the first Bluetooth switch 4-4 is closed, the power motor 4 is powered on to perform the measurement of the next measuring point, and the operation flow is repeated until the inclinometer probe 10 is lifted to the pipe orifice of the inclinometer pipe 9.

In addition, a first circuit and a second circuit are arranged, in order to close the second Bluetooth switch 4-3 when the tripod 1 is touched carelessly, adjust the position of the inclinometer probe 10 in the inclinometer pipe 9, and place the current measuring point control cable depth scale 8 on the clamping groove of the pipe orifice of the inclinometer pipe 9 again, the first Bluetooth switch 4-4 is opened during adjustment, and the angle sensor does not count at the moment.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (5)

1. The automatic acquisition device of the sliding inclinometer is characterized by comprising a tripod (1), a mounting frame (3), an inclinometer, a lifting mechanism, a limiting mechanism and acquisition equipment (11), wherein the mounting frame (3) is arranged on the tripod (1), the inclinometer comprises an inclinometer pipe (9) and an inclinometer probe (10), and the inclinometer probe (10) is arranged in the inclinometer pipe (9);

The lifting mechanism comprises a lifting wire disc (5) and a cable depth scale (8), the lifting wire disc (5) is rotatably arranged on the mounting frame (3), and the cable depth scale (8) is wound on the lifting wire disc (5);

The utility model discloses a cable depth scale (8) including angle sensor, angle sensor's output and collection equipment (11), angle sensor's output is equipped with angle sensor, angle sensor's output is connected with the input of collection equipment (11), cable depth scale (8) one end is connected with inclinometer probe (10) after running through between two distance measuring guide pulley (7) on two gag lever post (6) are located respectively to axle center and hoisting drum (5) of gag lever post (6) each other in parallel to axle center of two gag lever post (6) and two distance measuring guide pulley (6) are rotated setting on mounting bracket (3) and two length direction's center and tripod.

2. The automatic acquisition device of the sliding inclinometer according to claim 1, wherein the tripod (1) is fixedly connected with the mounting frame (3) through a connecting nut (2).

3. The automatic acquisition device of the sliding inclinometer according to claim 1, further comprising a power motor (4), wherein the power motor (4) is installed on a left side plate or a right side plate of the installation frame (3), two ends of the lifting wire coil (5) are rotatably arranged on the installation frame (3) through a connecting shaft, and an output shaft of the power motor (4) is in transmission connection with the connecting shaft.

4. The automatic acquisition device of the sliding inclinometer according to claim 3, wherein a power supply (4-1), a switch (4-2), a first Bluetooth switch (4-4) and a second Bluetooth switch (4-3) are arranged in the power motor (4), a driving circuit of the power motor (4) and the power supply (4-1), the switch (4-2), the first Bluetooth switch (4-4) and an angle sensor switch (12) form a first circuit, a driving circuit of the power motor (4) and the power supply (4-1), the switch (4-2) and the second Bluetooth switch (4-3) form a second circuit, and the first circuit and the second circuit are connected in parallel.

5. The automatic acquisition device of a sliding inclinometer according to claim 4, wherein an angle sensor switch (12), a bluetooth control switch (13) and a power control switch (14) are further arranged on any side plate of the mounting frame (3), and the angle sensor, the first bluetooth switch (4-4), the second bluetooth switch (4-3) and the switch (4-2) are controlled respectively.