CN115500599B

CN115500599B - Intelligent knapsack based on APP control and working method thereof

Info

Publication number: CN115500599B
Application number: CN202211218256.0A
Authority: CN
Inventors: 林希
Original assignee: Quanzhou Baite Luggage Co ltd
Current assignee: Quanzhou Baite Luggage Co ltd
Priority date: 2022-10-05
Filing date: 2022-10-05
Publication date: 2024-01-30
Anticipated expiration: 2042-10-05
Also published as: CN115500599A

Abstract

The invention discloses an intelligent knapsack based on APP control and a working method thereof, and the intelligent knapsack comprises a knapsack main body, a current conversion device and a photovoltaic panel group, wherein the current conversion device and the photovoltaic panel group are arranged in the knapsack main body, and the current conversion device is electrically connected with the photovoltaic panel group; the backpack body comprises swing protection plates and fixed protection plates, the swing protection plates are rectangular and arranged around the photovoltaic panel group, the fixed protection plates are respectively arranged between every two adjacent swing protection plates, and a cavity for installing the current conversion device and the photovoltaic panel group is formed when the swing protection plates and the fixed protection plates are closed.

Description

Intelligent knapsack based on APP control and working method thereof

Technical Field

The invention relates to the field of intelligent backpacks, in particular to an intelligent backpack based on APP control and a working method thereof.

Background

The current knapsack that has solar energy power generation all opens and shuts the photovoltaic board through manual, utilizes the photovoltaic board heat absorption to generate electricity, and can not protect photovoltaic board and part equipment through the knapsack of this kind of setting mode, when outdoor exercises or when the knapsack is placed to the slope, the border and the part equipment of photovoltaic board are knocked down easily to do not have the function that remote control opened and shut in the current equipment, consequently when the user is not near the knapsack, the knapsack is difficult to form effectual automatic power generation function.

Disclosure of Invention

The invention provides an intelligent knapsack based on APP control and a working method thereof, which overcome the defects described in the background technology.

The technical scheme adopted for solving the technical problems is as follows:

the intelligent knapsack based on APP control comprises a knapsack main body, a current conversion device and a photovoltaic panel group, wherein the current conversion device and the photovoltaic panel group are arranged in the knapsack main body, and the current conversion device is electrically connected with the photovoltaic panel group; the backpack body comprises swing protection plates and fixed protection plates, the swing protection plates are rectangular and arrayed around the photovoltaic panel group, the fixed protection plates are respectively arranged between every two adjacent swing protection plates, and a cavity for installing the current conversion device and the photovoltaic panel group is formed when the swing protection plates and the fixed protection plates are closed; the current conversion device comprises a storage battery, a control main board, a combiner, an inverter, the control main board and the combiner, wherein the storage battery is electrically connected with the combiner and the control main board; the photovoltaic panel sets comprise first photovoltaic panels, second photovoltaic panels and third photovoltaic panels, the second photovoltaic panels are respectively connected to the side faces of the first photovoltaic panels in a rotating mode, each second photovoltaic panel is connected with a third photovoltaic panel in a rotating mode, the other side of each third photovoltaic panel is connected with the edge of the swing protection plate in a rotating mode, and the photovoltaic panel sets are electrically connected with the inverter; the lower side of each swing protection plate drives swing through a control component so as to enable the photovoltaic panel group to be unfolded through the control component controlling the swing protection plate.

A preferred technical scheme is as follows: the control assembly comprises a first columnar tooth stem, a rotating shaft, a second columnar tooth bar and a motor, wherein the first columnar tooth stem is connected to the edge of the swing protection plate, two ends of the swing protection plate are respectively connected with the swing protection plate through the rotating shaft in a rotating mode, the second columnar tooth bar is installed on an output shaft of the motor, and the second columnar tooth bar is meshed with the first columnar tooth stem so as to drive the first columnar tooth stem and the swing protection plate to swing after the motor controls the second columnar tooth bar to rotate.

A preferred technical scheme is as follows: when the photovoltaic panel group is not unfolded, the swing protection plate and the fixed protection plate cover are arranged outside the third photovoltaic panel.

A preferred technical scheme is as follows: the storage battery is connected with a power line, a through hole is formed in the surface of the fixed protection plate, a closing cover is sleeved outside the power line, and the closing cover is clamped in the through hole.

A preferred technical scheme is as follows: and an electric quantity module for monitoring electric quantity is arranged in the storage battery.

A preferred technical scheme is as follows: the control main board comprises a control center, the control center is in signal connection with the mobile equipment, the control center comprises a monitoring module and a control module, and the monitoring module is in signal connection with the electric quantity module and the monitoring module respectively; the signal is connected with the motor, so that the signal module controls the motor to drive the second cylindrical toothed bar to rotate, and the first cylindrical toothed bar is driven to drive the swing protection plate to swing.

An intelligent knapsack working method based on APP control comprises the following steps: during the use, the electric quantity in the storage battery is monitored through the electric quantity module, the monitored electric quantity is fed back to the monitoring module for a user to check, and the user can drive the second cylindrical toothed bar to rotate through the control module control motor, the meshing drives the first cylindrical toothed bar and the swinging protection plate to swing and expand the second photovoltaic panel and the third photovoltaic panel, so that the range of the photovoltaic panel group for receiving light and heat radiation is enlarged.

Compared with the background technology, the technical proposal has the following advantages:

according to the invention, the swing protection plate can be driven to swing outwards through the remote control assembly to expand the photovoltaic panel group, so that the efficiency of absorbing and converting the light and heat radiation into current is increased, and the current conversion device and the photovoltaic panel group can be protected through the swing protection plate and the fixed protection plate which are arranged outside the current conversion device and the photovoltaic panel group.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of the backpack body 1.

Fig. 3 is a schematic view of the backpack body 1 when deployed.

Fig. 4 is a disassembled schematic of fig. 3.

In the figure: backpack body 1, swing guard plate 11, fixed guard plate 12, through hole 121, closing cover 122, current conversion device 2, battery 21, control main board 22, collector 23, inverter 24, photovoltaic panel group 3, first photovoltaic panel 31, second photovoltaic panel 32, third photovoltaic panel 33, control module 4, first columnar tooth bar 41, rotating shaft 42, second columnar tooth bar 43, motor 44.

Detailed Description

Example 1

As shown in fig. 1-4, an intelligent backpack based on APP control comprises a backpack main body 1, a current conversion device 2 and a photovoltaic panel group 3, wherein the current conversion device 2 and the photovoltaic panel group 3 are arranged in the backpack main body 1, and the current conversion device 2 is electrically connected with the photovoltaic panel group 3; the backpack body 1 comprises a storage bag and an equipment bag, the current conversion device 2 and the photovoltaic panel group 3 are both arranged in the storage bag, and the intelligent backpack can be understood that the storage function and the power generation function are respectively independent, and the intelligent backpack is made of hard materials such as polyethylene, TPU, TPA and resin, or an acrylic panel and a resin panel are embedded in an interlayer of the intelligent backpack to support the intelligent backpack, and the purpose of the arrangement is that the backpack cannot collapse inwards when the intelligent backpack is horizontally arranged on the ground, so that the current conversion device 2 and the photovoltaic panel group 3 cannot be well supported;

further, the backpack body 1 includes swing protection plates 11 and fixed protection plates 12, the swing protection plates 11 are rectangular and arranged around the photovoltaic panel group 3, the fixed protection plates 12 are respectively arranged between every two adjacent swing protection plates 11, and when the swing protection plates 11 and the fixed protection plates 12 are closed, an equipment bag for installing the current conversion device 2 and the photovoltaic panel group 3 is formed, so that protection of the current conversion device 2 and the photovoltaic panel group 3 is formed through the swing protection plates 11 and the fixed protection plates 12;

further, the current conversion device 2 includes a storage battery 21, a control main board 22, a combiner 23, and an inverter 24, where the control main board 22, the combiner 23, and the storage battery 21 are electrically connected, the inverter 24 is electrically connected to the combiner 23 and the control main board 22, and the photovoltaic panel set 3 is electrically connected to the inverter 24, so that the photovoltaic panel set 3 converts the light and heat radiation into electric power after absorbing the light and heat radiation, and transmits the electric power to the combiner 23, and then transmits the electric current into the inverter 24 via the combiner 23, converts the electric current into alternating current, and then transmits the alternating current to the storage battery 21 for storage.

Further, the photovoltaic panel set 3 includes a first photovoltaic panel 31, a second photovoltaic panel 32 and a third photovoltaic panel 33, the second photovoltaic panel 32 is respectively rotatably connected to the side surfaces of the first photovoltaic panel 31, each second photovoltaic panel 32 is rotatably connected to a third photovoltaic panel 33, the other side of each third photovoltaic panel 33 is rotatably connected to the edge of the swing protection plate 11, the lower side of each swing protection plate 11 is driven to swing by a control component 4, so that the control component 4 controls the swing protection plate 11 to expand the photovoltaic panel set 3, and when the second photovoltaic panel 32 and the third photovoltaic panel 33 are expanded, the range of receiving photo-thermal radiation can be expanded by all the second photovoltaic panel 32 and the third photovoltaic panel 33, so that more heat can be converted by the photovoltaic panel set 3;

and the equipment bag surface of knapsack main part 1 has been seted up and has been had the opening, first photovoltaic board 31 exposes in the opening part, can understand that there is not the shelter from the thing to first photovoltaic board 31 during normal use, therefore first photovoltaic board 31 sustainable absorption photo-thermal radiation is in order to turn into the electric current, can effectively guarantee the continuous workability of first photovoltaic board 31, and the middle part is all arranged in to opening and first photovoltaic board 31, first photovoltaic board 31 does not protrude in equipment bag surface simultaneously, consequently can form the protection to photovoltaic board group 3 through swing guard plate 11 and fixed guard plate 12.

Still further, the control assembly 4 includes a first cylindrical gear shaft 41, a rotating shaft 42, a second cylindrical gear rod 43, and a motor 44, where the first cylindrical gear shaft 41 is connected to an edge of the swing protection plate 11, two ends of the swing protection plate 11 are respectively connected to the swing protection plate 11 through the rotating shaft 42, the second cylindrical gear rod 43 is mounted on an output shaft of the motor 44, and the second cylindrical gear rod 43 is meshed with the first cylindrical gear shaft 41, so that the motor 44 controls the second cylindrical gear rod 43 to rotate and then drives the first cylindrical gear shaft 41 and the swing protection plate 11 to swing.

And, when the photovoltaic panel set 3 is not unfolded, the swing protection plate 11 and the fixed protection plate 12 are covered outside the third photovoltaic panel 33, and meanwhile, because the current conversion device 2 is arranged in the equipment bag, when the swing protection plate 11 needs to be controlled to be closed, the first photovoltaic panel 31 will be preferentially propped against the upper surface of the current conversion device 2, and the swing protection plate 11 at this time is still continuously closed, so that the third photovoltaic panel 33 is pressed inwards, one side of the third photovoltaic panel 33 far away from the swing protection plate 11 drives the second photovoltaic panel 32 downwards, so that the second photovoltaic panel 32 and the third photovoltaic panel 33 form a bent shape and are arranged around the first photovoltaic panel 31, and therefore, when the swing protection plate 11 is closed, the second photovoltaic panel 32 and the third photovoltaic panel 33 can be bent and stored in a gap between the current conversion device 2 and the swing protection plate 11.

In order to improve the usability of the present invention, the storage battery 21 is connected with a power line, a through hole 121 is provided on the surface of the fixed protection plate 12, a closed cover 122 is sleeved outside the power line, the closed cover 122 is clamped in the through hole 121, a plurality of USB power interfaces are provided on the side of the storage battery 21 to supply power to the device through the power interfaces and the power line, and the closed cover 122 sleeved on the power line can be clamped in the through hole 121 when not in use, thereby forming the fixation of the power line and avoiding the overlong power line exposed outside when not in use and wearing the present invention.

Example two

In this embodiment, an electric quantity module for monitoring electric quantity is disposed in the storage battery 21, so that the electric quantity in the storage battery 21 is stored and the power generation efficiency of the photovoltaic panel set 3 is observed through the electric quantity module, and the electric quantity module can be selected from the available technologies in the market or the existing technologies mentioned in the existing patents, and only the functions of monitoring, uploading and feedback of the electric quantity are required to be satisfied.

Further, the control main board 22 includes a control center, where the control center is in signal connection with the mobile device, and the control center is a molding platform capable of receiving and sending signal instructions, such as APP applet, software, instruction, etc., and the implementation is software programming and is common knowledge of the worker in the field, so that further description thereof will not be repeated;

the control center comprises a monitoring module and a control module, and the monitoring module is respectively connected with the electric quantity module and the monitoring module in a signal manner; the signal is connected with a motor 44, so that the motor 44 is controlled by the signal module to drive the second cylindrical toothed bar 43 to rotate, and the first cylindrical toothed bar 41 is driven to drive the swing protection plate 11 to swing;

based on the above content of the present embodiment, the following provides a working method of an intelligent backpack based on APP control: when the photovoltaic panel assembly is used, the electric quantity in the storage battery 21 is monitored through the electric quantity module, the monitored electric quantity is fed back to the monitoring module for a user to check, the user can control the motor 44 to drive the second cylindrical toothed bar 43 to rotate through the control module, the first cylindrical toothed bar 41 and the swing protection plate 11 are meshed to swing and expand the second photovoltaic panel 32 and the third photovoltaic panel 33, and the range of the photovoltaic panel assembly 3 for receiving photo-thermal radiation is enlarged;

the specific working method is as follows: when the invention is used by a user, the invention can be used in a wearing or placing and plane mode, no matter what using mode is used, the first photovoltaic plate 31 exposed at the opening of the equipment bag can absorb and generate electricity to solar heat radiation, so that direct current formed by the photovoltaic plate group 3 is converted into alternating current through the inverter 24 and stored in the storage battery 21;

and the timing module and the threshold module are arranged in the monitoring module, the timing module is used for controlling the photovoltaic panel set 3 to be automatically opened for enlarging the area in fixed time, or the threshold module is used for automatically opening the photovoltaic panel set 3 for accelerating the supply of the electric quantity in the storage battery 21 when the electric quantity stored in the storage battery 21 is smaller than the set threshold value when the invention is horizontally arranged.

The foregoing description is only illustrative of the preferred embodiments of the present invention, and therefore should not be taken as limiting the scope of the invention, for all changes and modifications that come within the meaning and range of equivalency of the claims and descriptions are therefore intended to be embraced therein.

Claims

1. Intelligent knapsack based on APP control, its characterized in that: the electric current conversion device (2) is electrically connected with the photovoltaic panel group (3);

the backpack body (1) comprises swing protection plates (11) and fixed protection plates (12), the swing protection plates (11) are rectangular and arrayed around the photovoltaic panel group (3), the fixed protection plates (12) are respectively arranged between every two adjacent swing protection plates (11), and when the swing protection plates (11) and the fixed protection plates (12) are closed, a cavity for installing the current conversion device (2) and the photovoltaic panel group (3) is formed;

the current conversion device (2) comprises a storage battery (21), a control main board (22), a bus bar (23) and an inverter (24), wherein the control main board (22), the bus bar (23) are electrically connected with the storage battery (21), and the inverter (24) is electrically connected with the bus bar (23) and the control main board (22) respectively;

the photovoltaic panel group (3) comprises a first photovoltaic panel (31), a second photovoltaic panel (32) and third photovoltaic panels (33), the second photovoltaic panels (32) are respectively connected to the side surfaces of the first photovoltaic panel (31) in a rotating mode, each second photovoltaic panel (32) is respectively connected with a third photovoltaic panel (33) in a rotating mode, the other side of each third photovoltaic panel (33) is respectively connected with the edge of the swing protection plate (11) in a rotating mode, and the photovoltaic panel group (3) is electrically connected with the inverter (24);

the lower side of each swing protection plate (11) is driven to swing through a control component (4), so that the control component (4) controls the swing protection plates (11) to enable the photovoltaic panel group (3) to be unfolded.

2. The APP-controlled smart backpack of claim 1, wherein: the control assembly (4) comprises a first columnar tooth stem (41), a rotating shaft (42), a second columnar tooth bar (43) and a motor (44), wherein the first columnar tooth stem (41) is connected to the edge of the swing protection plate (11), two ends of the swing protection plate (11) are respectively connected with the swing protection plate (11) through the rotating shaft (42) in a rotating mode, the second columnar tooth bar (43) is mounted on an output shaft of the motor (44), and the second columnar tooth bar (43) is meshed with the first columnar tooth stem (41) so as to mesh to drive the first columnar tooth stem (41) and the swing protection plate (11) to swing after the motor (44) controls the second columnar tooth bar (43) to rotate.

3. The APP-controlled smart backpack of claim 1, wherein: when the photovoltaic panel group (3) is not unfolded, the swing protection plate (11) and the fixed protection plate (12) are covered outside the third photovoltaic panel (33).

4. The APP-controlled smart backpack of claim 1, wherein: the storage battery (21) is connected with a power line, a through hole (121) is formed in the surface of the fixed protection plate (12), a closing cover (122) is sleeved outside the power line, and the closing cover (122) is clamped in the through hole (121).

5. An APP controlled smart backpack according to any one of claims 1-4, wherein: an electric quantity module for monitoring electric quantity is arranged in the storage battery (21).

6. The APP-controlled smart backpack of claim 5, wherein: the control main board (22) comprises a control center, the control center is in signal connection with the mobile equipment, the control center comprises a monitoring module and a control module, and the monitoring module is in signal connection with the electric quantity module and the monitoring module respectively;

the signal is connected with a motor (44) so as to drive the second cylindrical toothed bar (43) to rotate through the motor (44) controlled by the signal module, thereby driving the first cylindrical toothed bar (41) to drive the swing protection plate (11) to swing.

7. An intelligent knapsack working method based on APP control is characterized in that: during use, the electric quantity in the storage battery (21) is monitored through the electric quantity module, the monitored electric quantity is fed back to the monitoring module for a user to check, the second cylindrical toothed bar (43) is driven to rotate by the motor (44) controlled by the control module, the first cylindrical toothed bar (41) and the swinging protection plate (11) are meshed to swing and unfold the second photovoltaic panel (32) and the third photovoltaic panel (33), and the range of the photovoltaic panel group (3) for receiving photo-thermal radiation is enlarged.