CN106169803B - Field electric maintenance personal solar charging energizing power service kit - Google Patents

Abstract

The invention discloses a kind of field electric maintenance personals with solar charging energizing power service kit, including babinet, and accumulator is equipped in the babinet, and the tank surface is equipped with solar components, ambient light detectors and controller；Wherein, the ambient light detectors, for detecting the babinet ambient light information；The controller is connect with the ambient light detectors, for when the light information meets preset condition, control to make the solar components work；The solar components are connect with the controller and accumulator, for sunlight to be converted to electric energy and is output to the batteries to store energy.

Description

Solar charging power supply power maintenance box for field power maintenance personnel

Technical Field

The invention relates to the field of power maintenance tools, in particular to a solar charging power supply power maintenance box for field power maintenance personnel.

Background

During open-air electric power construction, need be in field work for a long time, various electronic measurement equipment are carried to the maintenance incasement that operating personnel carried, and some electronic measurement equipment need the power, and electronic measurement equipment self power live time is limited, perhaps has used before and lead to the electric quantity not enough, and when field long-time operation, the simple structure of current maintenance case, the function is single, can't provide the power or can't charge fast, leads to the equipment maintenance to detect probably can't implement. And although the existing power service box is very common, the technical improvement thereof is easily overlooked, and the improvement thereof is generally not noticed by those skilled in the art.

Disclosure of Invention

The invention aims to provide a solar charging power supply power maintenance box for field power maintenance personnel to solve the technical problem.

The embodiment of the invention provides a solar charging and power supplying power maintenance box for field power maintenance personnel, which comprises a box body, wherein a storage battery is arranged in the box body, and a solar component, an environmental light detector and a controller are arranged on the surface of the box body; wherein,

the environment light detector is used for detecting light information around the box body;

the controller is connected with the ambient light detector and used for controlling the solar assembly to work when the light ray information meets a preset condition;

the solar assembly is connected with the controller and the storage battery and used for converting sunlight into electric energy and outputting the electric energy to the storage battery for energy storage.

The controller is specifically configured to: and acquiring light brightness from the light information, and controlling the solar module to work when the light brightness is greater than a first threshold value.

The controller is further configured to:

detecting the electric quantity of the storage battery, and controlling the solar module to work in a first mode when the electric quantity does not reach a second threshold value;

when the electric quantity reaches the second threshold value, controlling the solar assembly to work in a second mode;

the photoelectric conversion efficiency of the solar assembly in the first mode is greater than that of the solar assembly in the second mode.

Further, the controller is further configured to:

when the light brightness is larger than a third threshold value and the electric quantity does not reach a fourth threshold value, controlling the solar assembly to work in a third mode;

when the light brightness is larger than a third threshold value and the electric quantity reaches a fourth threshold value, controlling the solar assembly to work in a fourth mode;

wherein the third threshold is greater than the first threshold, and the fourth threshold is greater than the second threshold;

the photoelectric conversion efficiency of the solar module in the third mode is smaller than that of the solar module in the fourth mode; the photoelectric conversion efficiency of the solar module in the third mode is greater than that of the solar module in the first mode.

Optionally, the surface of the box body is further provided with a touch display screen and a positioning module, and the touch display screen and the positioning module are respectively connected with the controller; wherein,

the positioning module is used for acquiring the position information of the box body movement;

the controller is further used for generating historical track information of the box body movement according to the position information and providing navigation information according to the historical track information and the current position information of the box body;

and the touch display screen is used for displaying the historical track information and/or the navigation information.

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

the invention provides a solar charging and power supplying power maintenance box for field power maintenance personnel, wherein a storage battery is arranged in a box body of the power maintenance box, a solar component, an ambient light detector and a controller are arranged on the surface of the box body, and the ambient light detector detects light ray information around the box body when the power maintenance box works; when the light ray information meets preset conditions (such as day and enough illumination), the controller controls the solar component to work; the solar component converts sunlight into electric energy and outputs the electric energy to the storage battery for energy storage. Therefore, the maintenance box can provide power for the electronic measuring equipment through the storage battery, and provides power or quickly charges when the electronic measuring equipment works for a long time in the field, so that the equipment maintenance and detection work can be implemented for a long time; and detect through ambient light detector light information around the box when light information accords with the preset condition, control solar energy component work, make full use of field work environment solar energy illumination energy storage, simple and convenient saves the resource, has also improved the intelligent degree of maintenance case, and the function is more various.

Description of the drawings:

fig. 1 is a schematic view of a solar energy charging power maintenance box for field power maintenance personnel according to an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments. It should be understood that the scope of the above-described subject matter is not limited to the following examples, and any techniques implemented based on the disclosure of the present invention are within the scope of the present invention.

Fig. 1 is a solar energy charging power maintenance box for field power maintenance personnel according to an embodiment of the invention, which includes a box body, and various maintenance tools, such as electronic measurement equipment, can be stored in the box body. A storage battery is also arranged in the box body, and a solar assembly, an ambient light detector and a controller (not shown) are arranged on the surface of the box body; wherein, the ambient light detector (such as a light sensor) is used for detecting the light information around the box body; the controller (such as a microprocessor or a microcontroller) is connected with the ambient light detector and is used for controlling the solar module to work when the light ray information meets a preset condition, such as daytime; if no light exists at night, the solar component does not work. The solar assembly is connected with the controller and the storage battery and used for converting sunlight into electric energy and outputting the electric energy to the storage battery for energy storage. Therefore, the maintenance box can provide power for the electronic measuring equipment through the storage battery, and provides power or quickly charges when the electronic measuring equipment works for a long time in the field, so that the equipment maintenance and detection work can be implemented for a long time; and detect through ambient light detector light information around the box when light information accords with the preset condition, control solar energy component work, make full use of field work environment solar energy illumination energy storage, simple and convenient saves the resource, has also improved the intelligent degree of maintenance case, and the function is more various.

Specifically, the controller is specifically configured to: and acquiring light brightness from the light information, and controlling the solar module to work when the light brightness is greater than a first threshold value. The first threshold may be a specific device, and is not limited to indicating sufficient daylight.

In order to fully utilize the solar energy in the daytime and rapidly charge the storage battery, the controller is further used for: detecting the electric quantity of the storage battery, and controlling the solar module to work in a first mode when the electric quantity does not reach a second threshold value (for example, 50% of the total electric quantity when the storage battery is fully charged); when the electric quantity reaches the second threshold value, controlling the solar assembly to work in a second mode; the photoelectric conversion efficiency of the solar assembly in the first mode is greater than that of the solar assembly in the second mode. In this way, charging is accelerated in the early stages of charging, and can be carried out more slowly when a certain amount of charge is reached for use by the electronic measuring device.

Further, in some cases, to expedite charging the battery, the controller is further configured to:

when the light brightness is larger than a third threshold value (namely in the daytime and the illumination is enough at the moment), and the electric quantity does not reach a fourth threshold value (for example, 70% of the total electric quantity when the storage battery is fully charged), controlling the solar assembly to work in a third mode; when the light brightness is larger than a third threshold value and the electric quantity reaches a fourth threshold value, controlling the solar assembly to work in a fourth mode; wherein the third threshold is greater than the first threshold, and the fourth threshold is greater than the second threshold; the photoelectric conversion efficiency of the solar module in the third mode is smaller than that of the solar module in the fourth mode; the photoelectric conversion efficiency of the solar module in the third mode is greater than that of the solar module in the first mode. Thus, when sunlight is strong in the daytime, the solar energy at the time is fully utilized to accelerate the charging of the storage battery, and when the electric quantity reaches the fourth threshold value, namely 70% of the total electric quantity when the storage battery is fully charged, the charging speed is further accelerated. The maintenance box is more intelligent, and the charging mode is adjusted automatically according to illumination.

Optionally, in an embodiment, a touch display screen and a positioning module (e.g., a GPS module) are further disposed on the surface of the box body, and the touch display screen and the positioning module are respectively connected to the controller; the positioning module is used for acquiring the position information of the box body movement; the controller is further used for generating historical track information of the box body movement according to the position information and providing navigation information according to the historical track information and the current position information of the box body; and the touch display screen is used for displaying the historical track information and/or the navigation information. Further make this maintenance box more intelligent like this, and when field work, easy lost, if terminals such as cell-phone are unexpected to be lost or can't the during operation, the supplementary navigation goes to the operation point or gets back to the departure point and returns, and intelligence is convenient.

In one example, the box body is further provided with: the signal detection module (such as a WIFI signal detection module) is used for detecting signal intensity information of a mobile terminal (such as a mobile phone) held by a user; the controller is used for receiving the signal intensity information, judging the distance between the user and the box body according to the signal intensity information, and controlling the solar energy component to work when the distance is larger than a fifth threshold value (1-10 cm). Specifically, the signal strength is extracted from the signal strength information, the change condition of the signal strength in a preset time period is judged, if the signal strength is gradually increased in the preset time period, the distance between the mobile terminal and the box body is gradually reduced, if the signal strength is gradually decreased in the preset time period, the distance between the mobile terminal and the box body is gradually increased, when the distance is greater than a fifth threshold value, the solar module is controlled to work, and when the distance is less than the fifth threshold value, the solar module is controlled to not work. Like this, can charge for electronic equipment specially when field operation personnel pause operation comes to maintenance box department and charges, save other energy consumptions, when detecting personnel and keep away from the box and leave the operation, automatically for the battery energy storage that charges, the intelligent tactics of implementing charging, and judge the distance with cell-phone signal intensity commonly used, utilize existing equipment, need not to increase other hardware (like distance sensor), the cost is lower, and implements more simple and conveniently.

While the present invention has been described in detail with reference to the embodiments shown in the drawings, the present invention is not limited to the above embodiments, and various modifications or alterations can be made by those skilled in the art without departing from the spirit and scope of the claims of the present application.

Claims (2)

1. A solar charging power supply power maintenance box for field power maintenance personnel comprises a box body and is characterized in that a storage battery is arranged in the box body, and a solar component, an ambient light detector and a controller are arranged on the surface of the box body; wherein,

the environment light detector is used for detecting light information around the box body;

the controller is connected with the ambient light detector and used for controlling the solar assembly to work when the light ray information meets a preset condition;

the solar assembly is connected with the controller and the storage battery and is used for converting sunlight into electric energy and outputting the electric energy to the storage battery for energy storage;

the controller is specifically configured to: acquiring light brightness from the light information, and controlling the solar module to work when the light brightness is larger than a first threshold value;

the controller is further configured to: detecting the electric quantity of the storage battery, and controlling the solar module to work in a first mode when the electric quantity does not reach a second threshold value; when the electric quantity reaches the second threshold value, controlling the solar assembly to work in a second mode; the photoelectric conversion efficiency of the solar module in the first mode is greater than that of the solar module in the second mode;

the controller is further configured to: when the light brightness is larger than a third threshold value and the electric quantity does not reach a fourth threshold value, controlling the solar assembly to work in a third mode; when the light brightness is larger than a third threshold value and the electric quantity reaches a fourth threshold value, controlling the solar assembly to work in a fourth mode; wherein the third threshold is greater than the first threshold, and the fourth threshold is greater than the second threshold; the photoelectric conversion efficiency of the solar module in the third mode is smaller than that of the solar module in the fourth mode; the photoelectric conversion efficiency of the solar module in the third mode is greater than that of the solar module in the first mode.

2. The maintenance box according to claim 1, wherein a touch display screen and a positioning module are further arranged on the surface of the box body, and the touch display screen and the positioning module are respectively connected with the controller; wherein,

the positioning module is used for acquiring the position information of the box body movement;

the controller is further used for generating historical track information of the box body movement according to the position information and providing navigation information according to the historical track information and the current position information of the box body;

and the touch display screen is used for displaying the historical track information and/or the navigation information.