KR102644778B1 - Smart device charging storage - Google Patents

Abstract

The present invention relates to a smart device charging storage cabinet, and to a smart device charging storage cabinet that turns off the power depending on the charging and storage status of the smart device. According to the present invention, the charging power can be cut off depending on the charging and storage status of the smart device, and a vibration signal is generated according to the charging and storage status detection result for each smart device holder stored in the smart device charging storage cabinet to generate electrical energy. It has the effect of notifying the outside world of the power cut-off status according to charging power cut-off, sterilization, or storage holder's internal temperature, humidity, power amount, and full charge.

Description

Smart device charging storage {Smart device charging storage}

The present invention relates to a smart device charging storage cabinet, and more specifically, to a smart device charging storage cabinet that turns off the power depending on the charging and storage status of the smart device.

As the Ministry of Education is promoting the distribution of one tablet PC per student, each school needs a smart device charging station to store and manage the tablet PC. However, the distribution rate in each school nationwide is currently around 30%, so continued supply and production is needed in the future. am.

In addition, in accordance with the policy of allowing military service members to use mobile phones after work starting in April 2019, it is necessary to flexibly configure charging products and storage units as it is difficult to manage the use of smartphones by soldiers in each military unit.

Previously, according to Registered Patent No. 10-2441555, priority was set according to the current consumption of smartphones, and charging priority was given to N smartphones with one power source without the need to charge N smartphones with N charging sources. are charged sequentially one by one. At this time, power is applied to the selected charging port based on the charging priority, and the charging time of the smartphone to be charged is set according to the charging priority to estimate the estimated time required for charging for each smartphone. Charging is performed only for the expected time.

In addition, a plurality of individual spaces are formed within the smartphone storage and charging device, and in each individual space, a self-generating means containing a piezoelectric element is configured to convert the vibration energy generated by the ringing of each smartphone being charged into electrical energy. To use it as an auxiliary means for charging a smartphone or as energy to operate a sterilization means, a self-generating means containing a piezoelectric element is constructed in an individual space.

However, in order to generate self-power through the piezoelectric element, the ringing setting of the smartphone must be set to vibrate every time it is stored in the storage box, and only when a call comes from outside and the smartphone vibrates will it be converted into electrical energy. There is a problem.

Registered Patent 10-2441555 (registered on 2022.09.02.)

In order to solve the above-mentioned problems, the purpose of the present invention is to provide a smart device charging storage cabinet that cuts off the charging power depending on the charging and storage status of the smart device.

In addition, the purpose is to provide a smart device charging storage cabinet that generates electrical energy by generating a vibration signal according to the detection result of the charging storage status of each smart device storage stand stored in the smart device charging storage cabinet.

In order to achieve the above object, the present invention provides a smart device charging storage cabinet that safely stores at least one smart device and charges it at the same time, comprising: a main body frame (10) with a vertical frame (12) formed on the outer side; At least one or more storage holders (20) are provided on the main body frame (10), and both sides (22) are movably assembled to the vertical frame (12), and accommodate the smart device (100). ; A guide roller 30 elastically contacting the upper surface of the smart device 100 at the top of the holder 20; It is provided on the side of the vertical frame 12, and while inserting the smart device 100 into the holder 20, the connection part 41 provided on the rear side of the holder 20 is electrically connected to the rear power terminal of the smart device 100. A power supply means 40 for supplying power to the smart device 100 by connecting to the smart device 100, and a result of detecting the internal temperature, humidity, power amount, and charging storage status of each storage holder of the smart device 100. It includes a control unit 50 that generates electrical energy by generating a vibration signal and switches the charging power of the power supply on and off.

According to the present invention, the charging power can be cut off depending on the charging and storage status of the smart device, and a vibration signal is generated according to the charging and storage status detection result for each smart device holder stored in the smart device charging storage cabinet to generate electrical energy. It has the effect of notifying the outside world of the charging power cut-off, sterilization, or power cut-off status according to internal temperature, humidity, power amount, and full charge for each storage holder.

Figure 1 is a block diagram showing the configuration of a smart device charging storage cabinet according to an embodiment of the present invention.
Figure 2 is a diagram showing a smart device charging storage cabinet according to an embodiment of the present invention.
Figure 3 is a diagram showing the configuration of the control unit of a smart device charging storage cabinet according to an embodiment of the present invention.
Figure 4 is a diagram showing the configuration of the control unit of a smart device charging storage cabinet according to another embodiment of the present invention.
Figure 5 is a diagram for explaining the power supply means of a smart device charging storage unit according to an embodiment of the present invention.
Figure 6 is a diagram for explaining the power supply means of a smart device charging storage cabinet according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited or limited by the exemplary embodiments. The same reference numerals in each drawing indicate members that perform substantially the same function.

The purpose and effect of the present invention can be naturally understood or become clearer through the following description, and the purpose and effect of the present invention are not limited to the following description. Additionally, in describing the present invention, if it is determined that a detailed description of known techniques related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

The smart device charging storage according to an embodiment of the present invention is a device that can simultaneously charge, safely store, and manage multiple smart devices in a school classroom. It charges 30 to 40 smart pads in use per classroom after class. It is formed with a slide-type automatic docking method to attach the charging cable more smoothly when stored for storage.

In addition, when manufacturing the charging box, the charging cable is fixed inside the holder in advance, and when a smart device is inserted into the corresponding compartment, it is formed in an automatic connection method.

Figure 1 is a block diagram showing the configuration of a smart device charging storage cabinet according to an embodiment of the present invention.

As shown in FIG. 1, the smart device charging storage according to an embodiment of the present invention includes a main body frame 10, a holder 20, a guide roller 30, a power supply means 40, and a control unit 50. Includes.

The main body frame 10 is a frame of a smart device charging storage that safely stores at least one smart device and charges it at the same time, and includes a holder 20, a guide roller 30, a power supply means 40, and a control unit 50. It is a formed frame.

At least one or more holders 20 are provided on the main body frame to accommodate the smart device 100.

The guide roller 30 elastically contacts the upper surface of the smart device 100 at the top of the holder 20.

The power supply means 40 inserts the smart device 100 into the holder 20 and electrically connects the connection provided at the rear of the holder 20 to the rear axis power terminal of the smart device 100 to connect the smart device 100. It is configured to supply power to the smart device 100 by electrically connecting it to the rear power terminal.

The control unit 50 generates a vibration signal from the switching control module according to the results of detecting the internal temperature, power amount, and charging and storage status of each storage holder of the smart device 100, and generates electrical energy through the piezoelectric element to generate power. This is a configuration for switching on and off the charging power supply.

Figure 2 is a diagram showing a smart device charging storage cabinet according to an embodiment of the present invention. In a smart device charging storage cabinet that safely stores and charges at least one smart device at the same time, a vertical frame 12 is formed on the outer side of the main body frame 10.

At least one or more holders 20 are provided on the main body frame 10, and both sides 22 are movably assembled to the vertical frame 12 to accommodate the smart device 100.

A fixture 27 is provided on the front side of the holder 20 with bolt and nut fixing means to secure the smart device 100.

The holder 20 is provided with one of a cushion member 24 or a roller guide on the inner surface that contacts the smart device 100 to prevent damage to the smart device 100.

The piezoelectric element 26 of the holder 20 generates electrical energy using a vibration signal generated by the switching control module according to the results of detecting the internal temperature, power amount, and charging and storage status of each holder by the control unit 50. Allows the charging power of the power supply to be turned on and off.

The guide roller 30 elastically contacts the upper surface of the smart device 100 at the top of the holder 20.

The power supply means 40 is provided on the side of the vertical frame 12, and while inserting the smart device 100 into the holder 20, the connection part 41 provided at the rear of the holder 20 is connected to the smart device 100. It is configured to supply power to the smart device 100 by electrically connecting it to the rear power terminal.

The control unit 50 generates a vibration signal to generate electrical energy according to the results of detecting the internal temperature, power amount, and charging storage status of each storage holder of the smart device 100, and turns the charging power of the power supply on and off. Switching.

Figure 3 is a diagram showing the configuration of the control unit of a smart device charging storage cabinet according to an embodiment of the present invention. As shown in FIG. 3, the control unit 50 according to this embodiment includes a temperature detection module 51, a power amount detection module 52, a buffer detection module 53, and a switching control module 54.

The temperature detection module 51 detects the internal temperature of each storage holder of the smart device to prevent fire due to overheating.

The power amount detection module 52 detects the power amount through IoT plugs connected to each stand.

The buffer detection module 53 detects whether the power amount due to the full charge of the smart device for each holder falls below a certain level.

The switching control module 54 generates electrical energy by generating a vibration signal according to the detection results of the temperature detection module, power amount detection module, and buffer detection module, and controls the on-off switching of the charging power of the power supply for each cradle. The electric energy used can be used to notify the outside world of the power cut-off status according to internal temperature, power amount, and full charge for each sterilization or storage cradle.

The control unit according to this embodiment forms a piezoelectric element that generates energy by generating a vibration signal according to the storage state of each storage holder of the smart device, and may generate the vibration signal differently depending on the storage state of each storage holder.

Figure 4 is a diagram showing the configuration of the control unit of a smart device charging storage cabinet according to another embodiment of the present invention. As shown in FIG. 4, the control unit 50' according to this embodiment includes a temperature detection module 51, a power amount detection module 52, a buffer detection module 53, a switching control module 54, and a count module ( 55).

The temperature detection module 51, power amount detection module 52, buffer detection module 53, and switching control module 54 of the control unit 50' according to this embodiment are the same as those in the previously mentioned embodiment. The explanation for this will be omitted.

The count module 55 is configured to detect vibration signals for each holder and classify and count whether the vibration signal is caused by the bell vibration of the smart device or a vibration signal generated according to the storage condition of each storage holder of the smart device. This count module 55 has the effect of classifying and recognizing whether it is a vibration caused by the bell vibration of a smart device or a vibration signal generated according to the storage state of each holder. Accordingly, when collecting smart devices from each holder in the smart device charging storage room in the future, there is an effect of being able to individually check the status of each holder by distinguishing between the storage status information for each holder and whether the vibration is caused by a bell vibration or an alarm.

Figure 5 is a diagram for explaining the power supply means of a smart device charging storage unit according to an embodiment of the present invention.

As shown in Figure 5, the power supply means 40 of the smart device charging storage according to this embodiment includes a connection terminal 41, a first drive module 42, a second drive module 43, and a position control module. Includes (44).

The connection terminal 41 is configured to connect and supply power to the wireless charging module with a power cable.

The first driving module 42 has storage holders 21 for holding smart devices on both sides of the holder, and slides 1 are provided at the lower portions of both sides of the holder below the storage holder 21, and both sides of the holder have slides 1. This is a configuration for driving the frame placed on the slide forward and backward in the first direction according to an external input.

The second drive module 43 is a second slide that connects the frames on both sides of the first drive module 42, which is disposed on both sides of the holder and can move forward and backward, so that it can move in a direction perpendicular to the forward and backward movement direction of the first drive module. (2), and has a second frame on which the wireless charging module is disposed on the second slide, so that the second frame is driven forward and backward in the second direction according to an external input.

The position adjustment module 44 is configured to supply power to the smart device 100 by adjusting the position of the wireless charging module to face the position of the wireless charging receiver according to an external input.

The power supply means 40 according to this embodiment is configured so that the wireless charging receiver and the wireless charging module of the smart device face each other, and when supplying power, the internal environment of each case of the smart device charging storage is displayed through a status display provided on one side of the case 20. Make it known.

In addition, in the power supply means of the smart device charging storage room according to the embodiment of the present invention, the position control module 44 operates the first driving module 42 according to the charging and storage status such as internal temperature, humidity, power amount, and full charge of the smart device. Alternatively, charging is blocked by changing the position of the wireless charging module through the second driving module 43.

In the smart device charging storage cabinet according to an embodiment of the present invention, in order to equip the smart device with a wireless charging receiver regardless of the type of smart device 100, the wireless charging receiver is attached to the rear of the smart device in the form of a sticker contact. It can be configured as follows. The wireless charging receiver attached to the back of the smart device may have a structure that is directly connected to the charging terminal of the smart device using a connection cable and terminal. In addition to this structure, the wireless charging receiver can also be installed in a separate smart device auxiliary case.

Figure 6 is a diagram for explaining the power supply means of a smart device charging storage cabinet according to another embodiment of the present invention. As shown in Figure 6, the power supply means 40 includes a connection terminal 41, a first drive module 42, a second drive module 43, a position control module 44, and a position detection module 45. , includes a position signal generation module 46.

Here, the connection terminal 41, the first drive module 42, the second drive module 43, and the position control module 44 are the same as the configuration mentioned above, so their description will be omitted.

The position detection module 45 is configured to have a sensor on one side of the holder to detect the position of the wireless charging receiver of the smart device inserted into the holder.

The position signal generation module 46 generates an x- and y-axis movement command input signal of the frame where the wireless charging module is placed to adjust the position of the wireless charging module to the position detected by the position detection unit 45, thereby It is a configuration that allows you to adjust the position of .

According to the present invention, the charging power can be cut off depending on the charging and storage status of the smart device, and a vibration signal is generated according to the charging and storage status detection result for each smart device holder stored in the smart device charging storage cabinet to generate electrical energy. It has the effect of notifying the outside world of the power cut-off status according to charging power cut-off, sterilization, or storage holder's internal temperature, humidity, power amount, and full charge.

Claims (6)

In a smart device charging storage cabinet that safely stores at least one smart pad and charges it at the same time,
A main body frame (10) with a vertical frame (12) formed on the outer edge;
At least one or more holders (20) are provided on the main body frame (10), both sides (22) of which are movably assembled to the vertical frame (12), and accommodating the smart pad (20);
a guide roller 30 elastically contacting the upper surface of the smart pad at the top of the holder 20;
It is provided on the side of the vertical frame 12 and is equipped with a wireless charging module whose position can be adjusted on the holder 20. While inserting a smart pad with a wireless charging receiver attached, the position of the wireless charging module is adjusted to the position of the wireless charging receiver. A power supply means (40) for supplying power to the smart pad by adjusting it to face each other,
A control unit (50) that generates electrical energy by generating a vibration signal according to the results of detecting the internal temperature, humidity, power amount, and charging storage status of each storage holder of the smart pad and switches the charging power of the power supply on and off. ), including
The control unit 50 includes a temperature detection module 51 that detects the internal temperature of each storage holder of the smart device to prevent fire due to overheating, and a power quantity detection module 52 that detects the amount of power through an IoT plug connected to each holder. ), a buffer detection module 53 that detects whether the amount of power due to the full charge of the smart device for each holder falls below a certain level, and a vibration signal is generated according to the detection results of the temperature detection module, power amount detection module, and buffer detection module. , a switching control module 54 that generates energy through the piezoelectric element of the holder and switches the charging power of the power supply for each holder on and off, and detects vibration signals for each holder to determine whether the vibration is caused by the bell vibration of the smart device, It includes a count module 55 that classifies and counts whether the vibration signal is generated according to the storage condition of each storage holder,
The control unit forms a piezoelectric element that generates energy with a vibration signal generated by the switching control module depending on the storage condition of the smart pad for each storage holder, and generates a different vibration signal depending on the storage condition for each storage holder,
The power supply means 40 includes a connection terminal 41 that connects power to the wireless charging module,
A first driving module (42) provided with slides (1) on both sides of the holder and driving the frame placed on the slides on both sides forward and backward according to an external input,
A second driving module (43) having a second slide connecting the frame of the first driving module (42), wherein the wireless charging module is placed on the second slide and driven forward and backward according to an external input,
A position adjustment module (44) for supplying power to the smart pad by adjusting the position of the wireless charging module to face the wireless charging receiver position.
A position detection module (45) equipped with a sensor on one side of the holder to detect the position of the wireless charging receiver of the smart device inserted into the holder,
A position signal generation module 46 for controlling the position of the wireless charging module by generating an x- and y-axis movement command input signal for adjusting the position of the wireless charging module to the position detected by the position detection module. Includes,
The position control module blocks charging by changing the position of the wireless charging module through the first driving module 42 or the second driving module 43 depending on the charging and storage state of the smart pad,
The first drive module includes storage holders 21 for holding the smart pad on both sides of the holder, and slides 1 at the lower ends of both sides of the holder below the storage holder 21, with slides on both sides. Driving the frame placed in forward and backward in the first direction,
The second drive module is a second slide (2) that connects the frames on both sides of the first drive module 42, which is disposed on both sides of the holder and can move forward and backward, to be movable in a direction perpendicular to the forward and backward movement direction of the first drive module. ), and a smart device charging storage cabinet characterized in that the second frame on which the wireless charging module is placed on the second slide is driven forward and backward in the second direction. delete delete delete delete delete