RU2272349C2 - Mobile phone charging device - Google Patents

Abstract

FIELD: mobile phones.

SUBSTANCE: proposed mobile phone charging device designed for charging all types of mobile phones or batteries irrespective of their manufacturer has body, location assembly, lock, battery sensor, horizontal and vertical blocks of charging terminals, limit switches, control unit, and charging circuit.

EFFECT: enlarged functional capabilities.

13 cl, 11 dwg

Description

Technical field

The present device relates to a mobile phone charger, more specifically, a mobile phone charger capable of charging all mobile phones or batteries, regardless of manufacturer or model.

State of the art

Currently, the market for personal mobile services is growing, in connection with which competition in this area is intensifying. Accordingly, the number of mobile phone manufacturers is growing. More miniature and diverse models appear on the market, with improved functionality and meeting the tastes of users.

Thus, taking into account the emergence of more and more diverse models of mobile phones, chargers that are more diverse in shape and design must be used to charge them, and manufacturers need to supply each new phone model with a special charger, which increases the cost. In addition, users experience inconvenience due to the need to take their own charger on trips or long business trips. In addition, with the purchase of new equipment and the discontinuation of the use of old chargers, the problem of resource loss and environmental pollution becomes more and more serious.

Accordingly, a need arose for the development of a universal charger capable of charging all types of mobile phones or batteries, regardless of the model of mobile phone.

Figure 1 shows the charger 10 for a vending machine, usually used in stores with extended hours. In order to use this charger, the user must find the connector 11 that meets the standard of the manufacturer and model of his mobile phone, and connect his mobile phone 12 to it.

The charger shown in FIG. 1 provides significant convenience to the user, however, its disadvantage is that the user needs to find a connector that matches the manufacturer’s standard and model of his mobile phone, and then connect his mobile phone to it. In addition, since the charger can charge the phone only if there is a connector corresponding to its model, each time a new model of mobile phone appears on the market, the charger must be equipped with a connector corresponding to such a new model. In addition, since the charger must have connectors that match the models of all manufacturers that have ever been put on the market, their number should be large. Accordingly, the problem with a conventional charger is its inefficiency in terms of occupied space and cost.

Thus, in the light of the above problems, the object of the present invention is to provide a universal charger for mobile phones capable of automatically detecting the type of various batteries and charging them.

Another objective of the present invention is the creation of a universal charger of small sizes, which can be used both at home and outside the home.

Disclosure of invention

To solve these problems, the present invention provides a charger for mobile phones, having: a housing 20, an installation site 21, which serves to install the battery 30 of the mobile phone in the housing 20, a latch 22 located in the installation site 21 for fixing the battery 30 in the center of the installation site 21, a battery sensor 73 located in the installation unit 21 and determining whether the battery 30 is installed in the installation unit 21, two charging terminal blocks 25, 26 arranged horizontally and vertically and having a plurality of about terminals 48, 38 in contact with the metal terminals 31, 32 of the battery 30 for information on charging the battery, limit switches 37, 47 located in two blocks 25, 26 of the charging terminals and regulating the movement of the installation site depending on the size of the battery 30 , which must be installed in the installation node so that the blocks 25, 26 of the charging terminals accurately come into contact with the metal terminals of the battery, a control unit 28 connected to the charging terminal blocks and used to control the contact metal terminals 31, 32 of the battery with charging terminal blocks 25, 26 and searching for charging information, and a charging circuit 27 connected to the control unit 28 and used to supply voltage to the charging terminal blocks 25, 26 based on information that was detected by the block 28 controls to charge the battery 30.

According to the present invention, the control unit 28 first puts one of the named blocks of the charging terminals into contact with the battery to search for charging information with the possibility of its subsequent disconnection from the battery in the absence of charging information and introducing the second block of charging terminals into contact with the named battery to search for information about charging.

According to the present invention, the charging terminal blocks also have terminals and terminal protection devices, wherein the terminals are in the form of pins.

Brief Description of the Drawings

The above and other objects, advantages and features of the present invention will become apparent from the following description of preferred embodiments with reference to the attached drawings, in which:

figure 1 shows a simplified perspective view of a conventional charger using a connector,

figure 2 is a perspective view of a charger for a mobile phone according to the present invention,

on figa and fig.3b are views illustrating the General design of the battery,

on figa and 4b are views illustrating a state in which the charging terminal block and the metal terminals of the battery are in contact with each other in the charger of the present invention,

5 is a view illustrating the construction of an individual terminal of the charging terminal block of the present invention,

6 is a view illustrating the construction of the charging terminal block of the present invention,

7 is a plan view illustrating the construction of the charging terminal block of the present invention,

Fig. 8 is a flowchart for explaining a process of installing a battery in a charger for a mobile phone of the present invention, and

figure 9 is a circuit diagram of the charging of the present invention.

Preferred Embodiment

Next, with reference to the attached drawings, preferred embodiments of the present invention are described in detail.

Figure 2 shows a perspective view of the charger of the present invention in a state when the installation site is open. As shown in FIG. 2, the charger has a mounting unit 21, a battery latch 22, two charging terminal blocks 25, 26, a control unit 28, and a housing for accommodating said elements.

The control unit 28 preferably has a microprocessor-based LSI and is connected to two charging terminal blocks 25, 26 to control the contact of the charging terminal blocks with the metal terminals of the battery and to search for information necessary for charging.

7 shows a detailed view of the installation site 21. As shown in the drawing, the installation site 21 has a front section 74, a section 78 carrying a battery, and a connecting section 76, while the connecting section 76 has a built-in elastic body that regulates the movement of the section 78, carrying battery, depending on the size of the installed battery. On both sides of the mounting unit there is a latch 22 having elasticity, due to which the battery is fixed in the center of the mounting unit 21.

A battery sensor 73 located in the battery-carrying portion 78 of the installation portion 21 determines whether a battery is installed. When the sensor 73 of the battery is activated, in other words, if the battery is installed, the control unit 28 starts to carry out the operations necessary to charge the battery. However, if the installation unit 21 is open, and the signal value of the battery sensor 73 does not change, the installation unit 21 will be closed inside the charger, and other charging operations will not start.

FIG. 3 shows two types of metal terminals of the battery 30. As shown in FIG. 4, the charging terminal blocks 25, 26 have a plurality of terminals 38, 48 in contact with the metal terminals of the battery 30 depending on the types of such terminals, and are preferably made in the form of a horizontal block 26 charging terminals and a vertical block 25 charging terminals.

In order to search for information for charging the battery, a plurality of charging terminals 38, 48 of the charging terminal blocks 25, 26 are brought into contact with the corresponding metal terminals 31, 32 of the battery.

FIG. 4b shows a state in which the horizontal charging terminal block 26 is in contact with the terminals 32 of the battery 30. The horizontal charging terminal block 26 shown in FIG. 6 has a latch 36 for securing a plurality of pin-shaped terminals 38 and a fuse 35 terminals. The terminal latch 36 has a limit switch 37, which regulates the movement of the battery-bearing section 78, depending on the size of the battery 30, which must be installed in the installation site 21. The role of the terminal fuse 35 is to reliably protect against bending of the pin-shaped terminals 38. Preferably, each step of the plurality of terminals 38 is less than the minimum width of the metal terminals of the battery to be installed. If each step of the terminals 38 exceeds the minimum width of the metal terminals of the battery, some metal terminal of the battery may not come into contact with the terminals of the charging terminal blocks, as a result of which the control unit 28 will not be able to obtain accurate information for charging the battery.

As shown in figure 4, the limit switch 37 determines the size of the installed battery and controls the contact position of the block 26 of the charging terminals and the battery 30.

On figa shows the state in which the vertical block 25 of the charging terminals is in contact with the terminals 31 of the battery 30, while their basic design is similar to that shown in fig.4b.

To search for charging information, the control unit 28 brings the horizontal charging terminal block 26 into contact with the battery. If charging information is not found, the control unit 28 disconnects the horizontal charging terminal block 26 from the battery and then reinserts the vertical charging terminal block 25 in contact with the battery to obtain information necessary for charging. To search for charging information, the control unit may also first bring a vertical block 25 of charging terminals into contact with the battery. Then, if charging information is not found, the control unit disconnects the vertical charging terminal block 25 from the battery and then reinserts the horizontal charging terminal block 26 into contact with the battery to detect information necessary for charging.

5 shows one terminal of the charging terminal block. The charging terminal 38 has an elastic element 52, which serves to mitigate the impact when it comes into contact with the metal terminals of the battery, and the end section 51 of the charging terminal is rounded and streamlined in order not only to prevent damage to the end section of the charging terminal, but also to protect the surface the installed battery from damage when it comes into contact with its metal terminals. In addition, to improve contact with the metal terminals of the battery, it is preferable that the end portion 51 of the charging terminal has a minimum diameter; in the illustrated embodiment, the diameter of the end portion 51 of the charging terminal is 1 mm or less.

Fig. 9 shows a charging circuit 27 used in conjunction with the control unit 28 of the charger for a mobile phone of the present invention, and hereinafter, control operations carried out before charging the battery with the required charging voltage relative to the voltage supplied to the charger are described with reference to the drawings. according to the present invention.

As follows from the design of the charging circuit 27 of the present invention, it has a rectification circuit (not shown) for receiving an external alternating voltage and converting it into a constant 12-volt charging voltage. The charging circuit 27 of the present invention also has an input terminal 97 for receiving a 12-volt voltage coming from the rectification circuit, and a resistance 96 through which the voltage supplied to the input terminal 97 passes.

The charging circuit of the present invention also has a comparator 96 for comparing the voltage passed through the resistance 96 with the voltage supplied from the digital-to-analog converter 92 and the transistor 94, and adjusting the output current passing through the resistance 96 based on the comparison output of the comparator 95. Accordingly, the transistor 94 controls the amount of current supplied to the emitter contact, depending on the output value of the comparator 95.

From the control unit 28, which generally controls the charging circuit of the present invention, a digital signal is supplied to the digital-to-analog converter 92, which is converted into an analog signal at the output. In other words, the digital-to-analog converter 92 used in the charging circuit of the present invention receives the voltage signal coming from the control unit 28 as a digital signal and converts it into an analog signal, which is supplied to the inverted terminal (1) of the comparator 95. Thus, the comparator 95 compares the voltage supplied to the input terminal 97 with the reference voltage, that is, the voltage supplied from the digital-to-analog converter 92, and then outputs its differential signal.

Next, the control unit 28, using the terminals 38, 48 of the charging terminal blocks, determines the amount of voltage required for the battery currently installed in the charger, sends a determination signal to the digital-to-analog converter 92 via the bit line, and receives an overload signal from the analog-to-digital converter 93 , which serves to adjust the amount of voltage supplied to the digital-to-analog converter 92. Then, the control unit 28, using the charging terminals 38, 48, recognizes the anode and cathode of the battery installed in the charger, and allows the supply of charging voltage through the corresponding terminal of the charging terminals.

To control the formation of an overload, the analog-to-digital converter 93 determines the amount of current required at the output of the transistor 94, and informs the control unit 28 about the formation of an overload by current coming from the transistor 94.

8 is a flowchart illustrating charging operations of a charger of the present invention.

When the user presses the switch 29, the charger of the present invention determines whether the charging circuit 27 is activated. If the charging circuit 27 is activated, the charging operation is stopped, the terminals of the horizontal and vertical blocks 25, 26 of the charging terminals are disconnected from the battery 30, after which the installation unit 21 is opened. This prevents damage to the charging terminal block, which can occur if the installation unit 21 is opened directly without disconnecting the terminals of the charging terminal block from the battery during operation of the charging circuit 27. Since at the time when the charging circuit is not activated, the charging terminal block is disconnected from the battery, the installation unit 21 is directly in the open state. If the installation site 21 is not open, this means that the battery is installed. The battery is installed in the center of the installation site 21 with the latch 22 located on the installation site 21. When the battery is installed in the installation site 21, the limit switches 37, 47 control the movement of the battery-bearing section, depending on the size of the installed battery so that the battery can be inserted into contact with the horizontal charging terminal block. The metal terminals of the battery can be contacted with the charging terminal block manually. The charger control unit 28, using the terminals of the charging terminal block in contact with the battery, searches for information required to charge the battery. In this case, an optical sensor (not shown) can be used to accurately confirm the positions of the metal terminals and other battery cells. After receiving information on charging the information about the anode, cathode, and charging voltage of the battery at the search stage, the charging process starts through the charging circuit 27. However, if charging information is not received from the connected terminals, the horizontal charging terminal block must be disconnected from the battery and then adjusted again to fit the size of the battery to be installed. Charging information is retrieved using the connected terminals. After receiving charging information, the charging process begins. Even in this case, if charging information is not found, the horizontal block of charging terminals must be disconnected from the battery, an alarm for reinstallation is given, the installation unit is opened to remove the battery, the battery is re-installed, after which the above steps must be repeated. After the start of the battery charging process, the control unit monitors the completion of the charging process and after its completion allows you to disconnect the connected terminals from the battery and displays the completion of the charging process on the display. Then, after pressing the switch, the installation unit opens to remove the charged battery.

Preferably, the user is able to monitor the state of charge using an LED element (not shown).

At the same time, when using the charger of the present invention for commercial purposes, the operation of the switch 29 can be limited by an interlock (not shown). This is done so that only the owner can remove the charged battery.

As described above, the charger of the present invention is capable of charging all mobile phones and batteries, regardless of their manufacturer and model.

In addition, the contact of the charging terminals with the battery can be ensured by the elastic portion inside the terminal having the shape of a pin, and bending or bending of the pin can be prevented by means of a terminal fuse of the charging terminal block.

In addition, since many of the charging terminals in contact with the battery are connected to the microprocessor LSI in order to search for information necessary for charging, it is possible to minimize the cost, size and accuracy of the charger, because in the event of an error, it can be detected by examining a single microprocessor LSI, its use is very effective.

In addition, since the terminals of the horizontal charging terminal block and the vertical charging terminal block come into contact with the battery at different times, the accuracy, efficiency and stability of information retrieval is ensured.

The embodiments described above are not intended to limit the scope of the present invention, to which further changes may be made by those skilled in the art.

Industrial application

The present invention provides a charger for a mobile phone, more specifically, a charger for a mobile phone, capable of charging all mobile phones or batteries, regardless of their manufacturer and models.

Claims (13)

1. A charger for a mobile phone having a housing, an installation unit for installing a mobile phone battery in the housing, a latch located in the installation unit for fixing the battery in the center of the installation unit, a battery sensor located in the installation unit and determining whether the battery is installed in the installation node, two blocks of charging terminals arranged horizontally and vertically and having a plurality of terminals in contact in the metal terminals of the battery to obtain information on charging the battery, limit switches located in two blocks of the charging terminals and regulating the movement of the installation unit depending on the size of the battery to be installed in the installation unit, so that the charging terminal blocks come into contact with the metal terminals of the battery, control unit connected to the charging terminal blocks and used to control the contact of the metal terminals of the battery with the charging terminal blocks and search for charging information, and the charging circuit is connected with the control unit and used to supply voltage to the charging terminal blocks based on information detected by the control unit for charging the battery, while the said control unit is installed with the possibility of introducing one of these charging terminal blocks into contact with the named battery to search for charging information with the possibility of subsequent disconnecting it from the battery in the absence of charging information and introducing the second block of charging terminals into contact with the named battery to search for information about the battery, and the above-mentioned blocks of charging terminals have terminals and devices for protecting terminals. 2. The device according to claim 1, characterized in that the plurality of terminals of said charging terminal blocks are in the form of pins. 3. The device according to claim 2, characterized in that the plurality of terminals of said blocks of charging terminals have an elastic portion. 4. The device according to claim 3, characterized in that the contact areas of the plurality of terminals of said charging terminal blocks are streamlined. 5. The device according to claim 4, characterized in that each step of the plurality of terminals of the named blocks of the charging terminals is less than the minimum width of the metal terminals of the named installed battery. 6. The device according to claim 1, characterized in that the said control unit is installed with the possibility of introducing a horizontal block of charging terminals into contact with the named battery to search for charging information with the possibility of its subsequent disconnection from the named battery in the absence of charging information and the introduction of a vertical unit charging terminals in contact with the named battery to search for charging information. 7. The device according to claim 1, characterized in that the said control unit is installed with the possibility of introducing a vertical block of charging terminals into contact with the named battery to search for charging information with the possibility of its subsequent disconnection from the named battery in the absence of charging information and the introduction of a horizontal unit charging terminals in contact with the named battery to search for charging information. 8. The device according to claim 1, characterized in that the said control unit is installed with the possibility of disconnecting the second block of charging terminals from the named battery in the absence of charging information for subsequent reinstallation of the battery. 9. The device according to claim 1, characterized in that the said control unit has a microprocessor LSI. 10. The device according to claim 1, characterized in that the said mounting unit has a front section, a section carrying a battery, and a connecting section, while the connecting section is made of elastic material, adaptable to the dimensions of the named battery. 11. The device according to claim 1, characterized in that it further has a sensor for recognizing the metal terminals of the named battery installed in the named installation site. 12. The device according to claim 1, characterized in that the contact of the named blocks of the charging terminals with the metal terminals of the named battery installed in the named installation node is provided manually. 13. The device according to claim 1, characterized in that the said battery is installed in the installation node with the ability to connect to the named mobile phone.

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