CN218724143U - Remote wireless control's full-automatic lift inclinometer - Google Patents

Abstract

The utility model discloses a long-range wireless control's full-automatic lift inclinometer, its characterized in that: including controlling means, power supply module, solar panel, inclinometer slider, wireless emitter and the inclinometer probe of charging, solar panel is used for giving power supply module charges, power supply module is used for giving controlling means, inclinometer slider, the wireless emitter power supply that charges. The utility model discloses a receiving and releasing of cable is accomplished to inclinometer slider, thereby realize automatic lifting, measurement and data acquisition, need not the personnel and pull the cable, reduce the human cost, the inclinometer probe uses the wireless mode of charging, need not use the cable to supply power to it, probe and cable junction need not do water repellent simultaneously, the cost is saved, and effectual weight reduction, the inclinometer can be connected with cell-phone or computer, not influenced by weather, can real-time long-range wireless monitoring, through setting up solar panel, can charge to power supply module, reduce the energy consumption.

Description

Remote wireless control's full-automatic lift inclinometer

Technical Field

The utility model belongs to the technical field of the inclinometer, especially, relate to a long-range wireless control's full-automatic lift inclinometer.

Background

At present, the inclinometer widely used in China is a sliding inclinometer, the working principle of the inclinometer is approximately the same, the operation method is similar, the control cable of the existing inclinometer is coiled by people and is inconvenient to carry in use, meanwhile, the control cable is used for supplying power to the inclinometer probe, the cost is relatively high, the inclinometer probe and the control cable are placed into an inclinometer pipe to be measured in the measuring process, the measurement is carried out at intervals of 50cm after the inclinometer probe and the control cable are placed into the inclinometer pipe to be measured, the existing inclinometer is manually pulled by an operator to carry out measurement, on one hand, physical strength consumption is large, on the other hand, the efficiency is low, and the influence of weather is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a long-range wireless control's full-automatic lift inclinometer, aim at solving the problem that exists among the background art. For realizing the purpose, the utility model discloses a technical scheme be:

the solar panel is used for charging the power supply assembly, the power supply assembly is used for supplying power to the control device, the inclinometer sliding device and the wireless charging transmitting device, the inclinometer sliding device is used for conveying the inclinometer probe to a measured point, the inclinometer probe comprises a probe shell, a wireless charging receiving device, an inclinometer measuring module and a probe battery, the wireless charging receiving device is arranged at the upper end of the probe shell, the probe battery and the inclinometer measuring module are arranged inside the probe shell, the wireless charging transmitting device and the wireless charging receiving device are used for charging the probe battery, and the probe battery is used for supplying power to the inclinometer measuring module.

Preferably, inclinometer slider includes base plate, bottom plate, left side board, right side board, fixed column, first axis of rotation, second axis of rotation, third axis of rotation, the bottom plate is fixed on the base plate, the line hole has been seted up on the bottom plate, it is located to cross the line hole between left side board and the right side board, connect through the fixed column between left side board and the right side board, left side board and right side board are all installed on the bottom plate, install second axis of rotation, third axis of rotation and first axis of rotation from the front to the back in proper order between left side board and the right side board.

Preferably, the inclinometer sliding device further comprises a wire coil, a sensing wheel, a wire guiding wheel, a wire winding and unwinding motor, a meter and a cable, wherein the wire coil, the sensing wheel and the wire guiding wheel are respectively installed on the first rotating shaft, the second rotating shaft and the third rotating shaft, the wire winding and unwinding motor is connected with one end of the first rotating shaft, the meter is connected with one end of the second rotating shaft, an automatic brake device is arranged inside the wire winding and unwinding motor, the cable is wound on the wire coil and is sequentially connected with the sensing wheel and the wire guiding wheel, and the cable penetrates through the wire passing hole and then is connected with the inclinometer probe.

Preferably, the inside of the wireless charging transmitting device is provided with a transmitting end coil, the inside of the wireless charging receiving device is provided with a receiving end coil, the receiving end coil and the transmitting end coil generate electric power in an interactive mode, and the wireless charging transmitting device is embedded in the wire passing hole.

Preferably, the inclinometer measuring module comprises a circuit board, a Bluetooth module, an inclinometry sensor and a memory, wherein the Bluetooth module, the inclinometry sensor and the memory are arranged on the circuit board, the Bluetooth module is used for being in communication connection with the control device, the inclinometry sensor is used for measuring deep horizontal displacement of rock soil, and the memory is used for storing the measuring data of the inclinometry sensor.

Preferably, still include the protective housing subassembly, the protective housing subassembly includes protection bottom and protection upper cover the inclinometer slider is installed on the protection bottom, the protection upper cover is established the outside of inclinometer slider.

Preferably, the control device is further internally provided with a wireless network module, and the wireless network module is used for transmitting the measured data to the cloud platform.

The utility model has the advantages that:

the utility model discloses a receive and release of cable is accomplished to inclinometer slider, thereby realize automatic lifting, measurement and data acquisition, need not personnel and pull the cable, reduce the human cost, the inclinometer probe uses the wireless mode of charging, need not use the cable to supply power to it, probe and cable junction do not do water repellent simultaneously, save the cost, and effectual weight reduction, the inclinometer can be connected with cell-phone or computer, not influenced by weather, can real-time long-range wireless monitoring, through setting up solar panel, can charge to power supply module, reduce the energy consumption.

Drawings

Fig. 1 is an overall schematic view of a remote wireless control full-automatic inclinometer provided by the utility model;

fig. 2 is a schematic view of a part of the structure of the sliding inclinometer provided by the present invention;

fig. 3 is the utility model provides a clinometer probe structure sketch map.

Wherein, in the figures, the respective reference numerals: 1-solar panel, 2-power supply assembly, 3-control device, 4-wireless charging emitter, 5-inclinometer sliding device, 51-bottom plate, 52-left side plate, 53-right side plate, 54-fixed column, 55-first rotating shaft, 56-second rotating shaft, 57-third rotating shaft, 58-wire coil, 59-sensing wheel, 510-wire guide wheel, 511-wire through hole, 512-wire take-up and pay-off motor, 513-meter, 514-cable, 515-base plate, 6-inclinometer probe, 61-probe shell, 62-wireless charging receiver, 63-probe battery, 64-inclinometer measuring module, 641-inclinometer sensor, 642-Bluetooth module, 643-memory and 644-circuit board.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. As used herein, the terms "vertical," "horizontal," "left," "right," and the like are for illustrative purposes only and do not represent the only embodiments, and as used herein, the terms "upper," "lower," "left," "right," "front," "rear," and the like are used in a positional relationship with reference to the drawings.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

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

As shown in fig. 1-3, the embodiment of the utility model provides a long-range wireless control's full-automatic lift inclinometer, including controlling means 3, power supply module 2, solar panel 1, inclinometer slider 5, wireless charging emitter 4 and inclinometer probe 6, solar panel 1 is used for charging for power supply module 2, power supply module 2 is used for giving controlling means 3, inclinometer slider 5 and the power supply of wireless charging emitter 4, inclinometer slider 5 is used for sending inclinometer probe 6 to the measured point, inclinometer probe 6 includes probe shell 61, wireless charging receiver 62, inclinometer measuring module 64 and probe battery 63, wireless charging receiver 62 sets up the upper end at probe shell 61, probe battery 63 and inclinometer measuring module 64 set up the inside at probe shell 61, wireless charging emitter 4 and wireless charging receiver 62 are used for charging for probe battery 63, probe battery 63 is used for supplying power for inclinometer measuring module 64.

In this embodiment, the inclinometer sliding device 5 comprises a base plate 515, a bottom plate 51, a left side plate 52, a right side plate 53, a fixed column 54, a first rotating shaft 55, a second rotating shaft 56 and a third rotating shaft 57, wherein the bottom plate is fixed on the base plate 515, the bottom plate 51 is provided with a wire passing hole 511, the wire passing hole 511 is positioned between the left side plate 52 and the right side plate 53, the left side plate 52 and the right side plate 53 are connected through the fixed column 54, the left side plate 52 and the right side plate 53 are both installed on the bottom plate 51, and the second rotating shaft 56, the third rotating shaft 57 and the first rotating shaft 55 are sequentially installed between the left side plate 52 and the right side plate 53 from front to back.

In this embodiment, the inclinometer sliding device 5 further comprises a wire coil 58, a sensing wheel 59, a wire guide wheel 510, a wire winding and unwinding motor 512, a meter device 513, a cable 514, a wire coil 58, a sensing wheel 59 and a wire guide wheel 510 which are respectively installed on the first rotating shaft 55, the second rotating shaft 56 and the third rotating shaft 57, the wire winding and unwinding motor 512 is connected with one end of the first rotating shaft 55, the meter device 513 is connected with one end of the second rotating shaft 56, the meter device 513 rotates synchronously with the winding and unwinding of the cable 514 through the sensing wheel 59 to measure the length of the cable 514, an automatic brake device is arranged inside the wire winding and unwinding motor 512, the length of the cable 514 can be accurately controlled in the measuring process, the measuring error is reduced, the wire winding and unwinding motor 512 can be protected when being started or stopped, the winding and unwinding of the cable 514 can be completed by controlling the forward and reverse rotation of the wire winding and unwinding motor 512, so as to realize the measurement of the inclinometer probe 6 at different positions, the cable is wound with the cable 514, the wire guide wheel 58, the cable 511 is sequentially connected with the wire guide wheel 510, and the inclinometer probe 6 after the cable passes through the wire guide hole.

In this embodiment, the inside of the wireless charging transmitting device 4 is provided with a transmitting end coil, the inside of the wireless charging receiving device 62 is provided with a receiving end coil, the receiving end coil and the transmitting end coil generate electric power alternately, and the wireless charging transmitting device 4 is embedded in the wire passing hole 511.

In this embodiment, the inclinometer measuring module 64 comprises a circuit board 644, a bluetooth module 642, an inclinometer sensor 641 and a memory 643, wherein the bluetooth module 642, the inclinometer sensor 641 and the memory 643 are all arranged on the circuit board 644, the bluetooth module 642 is used for being in communication connection with the control device 3, the inclinometer sensor 641 is used for measuring the horizontal displacement of the deep layer of the rock soil, and the memory 643 is used for storing the measurement data of the inclinometer sensor 641.

In this embodiment, the control device 3 is used to connect to a computer or a mobile phone for data transmission, so as to realize remote control by the computer or the mobile phone.

The utility model discloses a receiving and releasing of cable 514 is accomplished to inclinometer slider 5, thereby realize automatic lifting, measurement and data acquisition, need not the personnel and pull cable 514, reduce the human cost, inclinometer probe 6 uses wireless mode of charging, need not use the cable to supply power to it, probe and cable 514 junction need not be water repellent simultaneously, save the cost, and effectual weight reduction, the inclinometer can be connected with cell-phone or computer, not influenced by weather, can real-time long-range wireless monitoring, through setting up solar panel 1, can charge power supply module 2, reduce the energy consumption.

The above embodiments are only used for illustrating the present invention, and not for limiting the present invention, and those skilled in the relevant technical field can make various changes and modifications without departing from the spirit and scope of the present invention, so that all equivalent technical solutions also belong to the scope of the present invention, and the protection scope of the present invention should be defined by the claims.

Claims (6)

1. The utility model provides a long-range wireless control's full-automatic lift inclinometer which characterized in that: the wireless charging receiving device is arranged at the upper end of the probe shell, the probe battery and the inclinometer measuring module are arranged inside the probe shell, the wireless charging transmitting device and the wireless charging receiving device are used for charging the probe battery, and the probe battery is used for supplying power to the inclinometer measuring module.

2. The remote wireless control full-automatic lifting inclinometer according to claim 1, characterized in that: the inclinometer sliding device comprises a base plate, a bottom plate, a left side plate, a right side plate, a fixing column, a first rotating shaft, a second rotating shaft and a third rotating shaft, wherein the bottom plate is fixed on the base plate, a wire passing hole is formed in the bottom plate and is located between the left side plate and the right side plate, the left side plate and the right side plate are connected through the fixing column, the left side plate and the right side plate are installed on the bottom plate, and the second rotating shaft, the third rotating shaft and the first rotating shaft are sequentially installed between the left side plate and the right side plate from front to back.

3. The remote wireless control full-automatic inclinometer according to claim 2, characterized in that: the inclinometer sliding device further comprises a wire coil, a sensing wheel, a wire guide wheel, a wire winding and unwinding motor, a meter and a cable, wherein the wire coil, the sensing wheel and the wire guide wheel are respectively arranged on the first rotating shaft, the second rotating shaft and the third rotating shaft, the wire winding and unwinding motor is connected with one end of the first rotating shaft, the meter is connected with one end of the second rotating shaft, an automatic brake device is arranged inside the wire winding and unwinding motor, the cable is wound on the wire coil, the sensing wheel and the wire guide wheel are sequentially connected with one another, and the cable penetrates through the wire passing hole and then is connected with the inclinometer probe.

4. A remote wireless controlled fully automatic inclinometer according to claim 2 or 3, characterized in that: the wireless charging transmitting device is characterized in that a transmitting end coil is arranged inside the wireless charging transmitting device, a receiving end coil is arranged inside the wireless charging receiving device, the receiving end coil and the transmitting end coil generate electric power in an interactive mode, and the wireless charging transmitting device is embedded in the wire passing hole.

5. The remote wireless control full-automatic inclinometer according to claim 1, characterized in that: the inclinometer measuring module comprises a circuit board, a Bluetooth module, an inclinometer sensor and a memory, wherein the Bluetooth module, the inclinometer sensor and the memory are arranged on the circuit board, the Bluetooth module is used for being in communication connection with the control device, the inclinometer sensor is used for measuring deep horizontal displacement of rock soil, and the memory is used for storing measurement data of the inclinometer sensor.

6. The remote wireless control full-automatic inclinometer according to claim 1, characterized in that: the control device is internally provided with a wireless network module which is used for transmitting measured data to the cloud platform.

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