CN219265301U - Photoelectric type dip angle measurement system - Google Patents

Abstract

The utility model belongs to the technical field of building deformation monitoring, and particularly relates to a photoelectric inclination angle measurement system. The solar energy meter comprises a plurality of photocells, a converter, a power module, an energy storage module, an inclination angle measuring device, a main control chip and a battery, wherein the photocells are arranged on a plurality of surfaces of a shell, the converter is arranged in the shell and is electrically connected with the photocells, the energy storage module is arranged in the shell and is electrically connected with the converter, the power module is arranged in the shell and is electrically connected with the energy storage module and the converter, the inclination angle measuring device is electrically connected with the power module, the main control chip is arranged in the shell and is electrically connected with the power module, the battery converts light energy into electric energy, and the electric energy is used for supplying power to the inclination angle measuring device, so that the inclination angle measuring device is charged in a spaced mode, and the long-time different environment working requirements of the inclination angle measuring device are realized.

Description

Photoelectric type dip angle measurement system

Technical Field

The utility model belongs to the technical field of building deformation monitoring, and particularly relates to a photoelectric inclination angle measurement system.

Background

In recent years, the economy of China rapidly develops, urban population is increased continuously, urban infrastructure construction is vigorous, and accordingly, safety of the urban infrastructure is also becoming more and more interesting. The inclination value of the infrastructure is an important index for measuring the safety of the infrastructure, and effective monitoring is a precondition for the construction safety of the infrastructure. The inclinometer is an acceleration sensor applying the principle of inertia, and can be used for monitoring, early warning and safety assessment of safety states, change characteristics and development trends of different structures such as power transmission towers, power towers, bridges, buildings, ancient trees, shelves, telegraph poles, street lamp poles, traffic signs and the like.

The NB-IOT wireless dip angle measuring device in the prior art comprises a controller, wherein a wake-up signal is sent to a data acquisition module and a data processing module every other measuring period; evaluating according to the corrected measurement data X, generating a measurement strategy, sending the measurement strategy to a data acquisition module, acquiring inclination angle information, an early warning signal and a wake-up signal, sending the inclination angle information, the early warning signal and the wake-up signal to a communication module, and automatically entering a dormant state by the data acquisition module and a data processing module; the communication module is used for sending the inclination angle information, the early warning signal and the internal power supply information to the cloud platform according to the signal intensity of the communication signal; and the power supply module is used for providing power for the controller and the communication module, generating internal power information after the external power is lost, and sending the internal power information to the communication module, wherein the internal power information comprises the usable time of the electric quantity of the internal power. And the power management of the wireless inclinometer measuring system is facilitated.

The power supply module of these inclinometers basically adopts the lithium battery to supply power for equipment, but the current basic position that sets up generally has great potential safety hazard, is inconvenient for supplying power to the battery of inclinometer, therefore, what is needed is a wireless inclinometer with separate empty function of charging.

Disclosure of Invention

The utility model aims to solve the technical problems in the prior art, and provides a photoelectric inclination angle measuring system which is simple in structure and reasonable in design, so that an inclination angle instrument has a function of charging at intervals, the service time of the inclination angle instrument is prolonged, the maintenance difficulty of the inclination angle instrument is reduced, and the construction safety is improved.

In order to solve the above technical problems, the present utility model provides a photoelectric inclination angle measurement system, comprising:

a housing;

photocell, locate on multiple surfaces of the body;

the converter is arranged in the shell and is electrically connected with the photocell;

the energy storage module is arranged in the shell and is electrically connected with the converter;

the power module is arranged in the shell and is electrically connected with the energy storage module and the converter;

the inclination angle measuring device is electrically connected with the power supply module;

the main control chip is arranged in the shell and is electrically connected with the power supply module.

Further, an RF external gain antenna is arranged on the shell and is electrically connected with an RF module in the shell, and the RF module is electrically connected with the main control chip.

Further, the main control chip is electrically connected with the GPS positioning module, and the GPS positioning module is arranged in the shell.

Further, the main control chip is electrically connected with a buzzer, and the buzzer is arranged on the shell.

Further, the main control chip is electrically connected with the signal lamp, and the signal lamp is arranged on the shell.

Further, the main control chip is electrically connected with a temperature sensor, and the temperature sensor is arranged in the shell.

Further, the main control chip is electrically connected with an acceleration sensor, and the acceleration sensor is arranged in the shell.

Further, the method further comprises the following steps: and the laser emitter is connected with the photocell optical path.

Compared with the prior art, the utility model has the following advantages:

in conclusion, the intelligent charging device is simple in structure and reasonable in design, has a space-apart charging function, solves the problem of difficulty in charging the inclinometer in a severe environment, effectively improves the space-apart charging efficiency, reduces the maintenance difficulty of the inclinometer, further reduces the labor intensity of workers, and improves the construction safety.

Drawings

FIG. 1 is a front view of a housing of the present utility model;

FIG. 2 is a top view of a housing and a circuit board module distribution diagram of the present utility model;

fig. 3 is a diagram showing the connection relationship between the modules according to the present utility model.

Detailed Description

As shown in fig. 1-3, the present utility model includes:

a housing 1;

photocell 2, locate on multiple surfaces of body 1;

the converter is arranged in the shell 1 and is electrically connected with the photocell 2;

the energy storage module is arranged in the shell 1 and is electrically connected with the converter;

the power module 3 is arranged in the shell 1 and is electrically connected with the energy storage module and the converter;

the dip angle measuring device is electrically connected with the power module 3;

the main control chip 4 is arranged in the shell 1 and is electrically connected with the power module 3.

Specifically, the casing 1 is provided with a rectangular parallelepiped, the photocell 2 is a silicon photocell, the photocell 2 is embedded on six faces of the casing 1 and is connected to a control circuit board in the casing 1 through wires, the control circuit board is provided with a main control chip 4, the main control chip 4 is specifically provided with an STM32L031F6P6, the main control chip 4 is electrically connected with a power supply module 3, the power supply module 3 is electrically connected with an energy storage module and a converter, the energy storage module is specifically a lithium battery, the model is a 18650 lithium battery with a nicjoy model, the converter is a common direct current-to-alternating current converter, and the inclination angle measuring device is an existing inclination angle measuring instrument, and the model is not listed one by one. According to the utility model, natural light or light emitted by the light emitting device is emitted to the photocell 2 through the photocell, the photocell converts light energy into stable direct current voltage through the converter and then the stable direct current voltage is stored in the lithium battery, and the lithium battery supplies power to the inclination angle measuring device, so that the inclination angle measuring device works in different environments for a long time, and the working efficiency is improved.

In one possible implementation manner provided by the utility model, an RF external gain antenna 5 is arranged on the shell, the RF external gain antenna 5 is electrically connected with an RF module 6 in the shell, and the RF module 6 is electrically connected with the main control chip 4.

In the present embodiment, the RF module 6 is specifically set to E22-400t22s, the specific model of the RF external gain antenna 5 is set to f30114, and remote communication with the background is achieved by setting the RF module 6.

In one possible implementation of the present utility model, the main control chip 4 is electrically connected to the GPS positioning module 7, and the GPS positioning module 7 is disposed in the housing 1.

In this embodiment, the GPS positioning module 7 is specifically set to be AT6558D, and by setting the GPS positioning module 7, the position information of the inclination angle measurement device is reported to the background, which is particularly beneficial for the staff to position the inclination angle measurement device with low power.

In one possible implementation manner provided by the utility model, the main control chip 4 is electrically connected with the buzzer 8, and the buzzer 8 is arranged on the shell 1.

In this embodiment, the buzzer 8 is specifically set to BC817-SOT23, and by setting the buzzer 8, the staff is convenient to charge the photovoltaic cell by using the laser emitter, and when the energy received by the photovoltaic cell is greater than the set threshold, the inclination angle measuring device sounds to prompt to start charging.

In one possible embodiment of the present utility model, the main control chip 4 is electrically connected to the signal lamp 9, and the signal lamp 9 is disposed on the housing 1.

In this embodiment, the signal lamp 9 is specifically set to be schrad's XB2BVB3LC, and by setting the signal lamp 9, after the inclination measuring device is fully charged, the signal lamp 9 blinks, reminding the staff that the inclination measuring device is fully charged.

In one possible embodiment of the present utility model, the main control chip 4 is electrically connected to the temperature sensor 10, and the temperature sensor 10 is disposed in the housing 1.

In the present embodiment, the temperature sensor 10 is specifically set as DS18B20, and by setting the temperature sensor 10, the outside ambient temperature of the inclination measuring apparatus is captured.

In one possible embodiment of the present utility model, the main control chip 4 is electrically connected to the acceleration sensor 11, and the acceleration sensor 11 is disposed in the housing 1.

In the present embodiment, the acceleration sensor 11 is specifically provided as an ADXL355.

In one possible embodiment provided by the present utility model, the method further includes: and the laser emitter is connected with the photocell optical path.

In this embodiment, laser emitter bottom is provided with the support, and the support is the support frame that any section that can purchase on the market has stable function, contains but not limited to the tripod, installing support etc. through setting up the support, has improved laser emitter's stability, is favorable to improving charge efficiency, makes laser emitter pass through laser beam transmission to the photocell through setting up laser emitter, photocell on, and photocell converts light energy into electric energy, realizes the interval of inclinometer and charges.

Table 1 is the parameters of the partial modules of the present utility model, as shown in table 1;

TABLE 1

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, and any simple modification, variation and equivalent structural changes made to the above embodiment according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (8)

1. An optoelectronic tilt angle measurement system, comprising:

a housing (1);

a plurality of photocells (2) respectively arranged on a plurality of surfaces of the shell (1);

the converter is arranged in the shell (1) and is electrically connected with the photocell (2);

the energy storage module is arranged in the shell (1) and is electrically connected with the converter;

the power module (3) is arranged in the shell (1) and is electrically connected with the energy storage module and the converter;

the inclination angle measuring device is electrically connected with the power supply module (3);

the main control chip (4) is arranged in the shell (1) and is electrically connected with the power supply module (3).

2. An optoelectronic tilt angle measuring system according to claim 1, wherein said housing (1) is provided with an RF external gain antenna (5), said RF external gain antenna (5) being electrically connected to an RF module (6) in said housing (1), said RF module (6) being electrically connected to said main control chip (4).

3. The photoelectric inclination angle measurement system according to claim 1, wherein the main control chip (4) is electrically connected with a GPS positioning module (7), and the GPS positioning module (7) is disposed in the housing (1).

4. The photoelectric inclination angle measurement system according to claim 1, wherein the main control chip (4) is electrically connected with a buzzer (8), and the buzzer (8) is arranged on the housing (1).

5. An optoelectronic tilt angle measuring system according to claim 1, wherein said main control chip (4) is electrically connected to a signal lamp (9), said signal lamp (9) being provided on said housing (1).

6. An optoelectronic tilt angle measuring system according to claim 1, wherein said main control chip (4) is electrically connected to a temperature sensor (10), said temperature sensor (10) being arranged in said housing (1).

7. An optoelectronic tilt angle measurement system according to claim 1, wherein the tilt angle measurement device comprises:

and an acceleration sensor (11), wherein the acceleration sensor (11) is arranged in the shell (1).

8. An optoelectronic tilt angle measurement system according to claim 1, further comprising:

and the laser emitter is connected with the photocell (2) in an optical path.

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