CN106506751B - Uninterrupted power system for replacing battery of mobile phone - Google Patents

Abstract

A battery replacement uninterrupted power system for a mobile phone comprises a main battery and a secondary battery for providing electric energy for the mobile phone when the main battery is replaced, wherein the main battery and the secondary battery are connected with a control main board of the mobile phone, and a switcher for switching the power supply of the main battery or the secondary battery is arranged between the main battery and the secondary battery. The invention adopts the structure, and adopts the auxiliary battery and the switcher, so that the normal power supply to the mobile phone can be kept while the battery is replaced, and the mobile phone can be normally used or used in the process of replacing the battery; the battery management chip realizes the electric quantity detection of the main battery and the auxiliary battery, realizes the function of supplying power to the auxiliary battery by the main battery, does not need to detach the auxiliary battery for charging, and brings convenience to users.

Description

Uninterrupted power system for replacing battery of mobile phone

Technical field:

the invention relates to a mobile phone battery replacement uninterrupted power system, and belongs to the technical field of mobile equipment.

The background technology is as follows:

along with the continuous development of the smart phone technology, the screen of the smart phone is larger and larger, the processing speed of a mobile phone processor and a display module is higher and higher, the requirements of application programs on processing resources are higher and higher, the power consumption of the smart phone is higher and higher, however, the development of the mobile phone battery technology is not kept pace with the development of the mobile phone, the capacity improvement of the mobile phone battery is very limited, the battery capacity of the current mainstream smart phone is generally 3000mah, and one smart phone operates for one day under medium use intensity. If the intensity of use is high, the battery capacity of most smartphones is not enough for the phones to run for one day. Therefore, the battery needs to be replaced frequently, and when the battery is replaced, the rear cover of the mobile phone needs to be detached, so that the battery replacement is troublesome, and meanwhile, if the battery is replaced in a call or during use, the use of a user is influenced by the power-off mode, so that the mobile phone is very inconvenient to use.

The invention comprises the following steps:

the invention provides a battery-replacing uninterrupted power system of a mobile phone, which adopts a secondary battery and a conversion device, and can keep normal power supply to the mobile phone while replacing the battery, so that the mobile phone can be normally used or used in the process of replacing the battery, and the problems in the prior art are solved.

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

a battery replacement uninterrupted power system for a mobile phone comprises a main battery and a secondary battery for providing electric energy for the mobile phone when the main battery is replaced, wherein the main battery and the secondary battery are connected with a control main board of the mobile phone, and a switcher for switching the power supply of the main battery or the secondary battery is arranged between the main battery and the secondary battery.

The switcher comprises a vertically arranged push rod, a secondary battery connecting rod is horizontally arranged at the top end of the push rod, the outer end of the secondary battery connecting rod is opposite to the position of the positive electrode terminal of the secondary battery, a lifting plate is arranged at the inner end of the secondary battery connecting rod, one end of a main battery connecting rod is located above the lifting plate, a rotating shaft connected to the mobile phone body is arranged in the middle of the main battery connecting rod, and the other end of the main battery connecting rod is connected with the positive electrode end of the main battery.

And the main battery and the auxiliary battery are connected with the battery management chip.

The push rod is slidably mounted in a slide rail arranged on the mobile phone body.

The invention adopts the structure, and adopts the auxiliary battery and the switcher, so that the normal power supply to the mobile phone can be kept while the battery is replaced, and the mobile phone can be normally used or used in the process of replacing the battery; the battery management chip realizes the electric quantity detection of the main battery and the auxiliary battery, realizes the function of supplying power to the auxiliary battery by the main battery, does not need to detach the auxiliary battery for charging, and brings convenience to users.

Description of the drawings:

FIG. 1 is a schematic diagram of the main battery power supply structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the present invention when the main battery is replaced;

in the figure, 1, a main battery, 2, a secondary battery, 3, a control main board, 4, a push rod, 5, a secondary battery connecting rod, 6, a positive electrode terminal, 7, a lifting plate, 8, a main battery connecting rod, 9, a rotating shaft, 10, a battery management chip, 11 and a sliding rail.

The specific embodiment is as follows:

in order to clearly illustrate the technical features of the present solution, the present invention will be described in detail below with reference to the following detailed description and the accompanying drawings.

As shown in fig. 1-2, a system for replacing a battery of a mobile phone without power interruption comprises a main battery 1 and a secondary battery 2 for providing power for the mobile phone when the main battery is replaced, wherein the main battery 1 and the secondary battery 2 are connected with a control main board 3 of the mobile phone, and a switcher for switching power supply of the main battery 1 or the secondary battery 2 is arranged between the main battery 1 and the secondary battery 2.

The switcher comprises a vertically arranged push rod 4, a secondary battery connecting rod 5 is horizontally arranged at the top end of the push rod 4, the outer end of the secondary battery connecting rod 5 is opposite to the position of a positive electrode terminal 6 of the secondary battery 2, a lifting plate 7 is arranged at the inner end of the secondary battery connecting rod 5, one end of a main battery connecting rod 8 is located above the lifting plate 7, a rotating shaft 9 connected to a mobile phone body is arranged in the middle of the main battery connecting rod 8, and the other end of the main battery connecting rod 8 is connected with the positive electrode terminal of the main battery 1.

The main battery 1 and the sub-battery 2 are connected with a battery management chip 10.

The push rod 4 is slidably mounted in a slide rail 11 arranged on the mobile phone body.

In the use process, when a user needs to replace a battery, the user pushes the push rod 4 to move upwards through tools such as a thimble and the like, so that the push rod 4 pushes the auxiliary battery connecting rod 5 to move upwards until the auxiliary battery connecting rod 5 is contacted with the positive terminal 6 of the auxiliary battery 2, and at the moment, the auxiliary battery 2 is connected into a loop, and the auxiliary battery 2 starts to supply power to the control main board 3 of the mobile phone. When the auxiliary battery connecting rod 5 moves upwards, the lifting plate 7 arranged on the auxiliary battery connecting rod 5 also moves upwards, and one end of the main battery connecting rod 8 above the lifting plate 7 is pushed to move upwards, so that the other end of the main battery connecting rod 8 moves downwards, and in the process of withdrawing the main battery 1, the positive electrode of the main battery 1 is not separated from the main battery connecting rod 8 immediately, so that the switching between the main battery 1 and the auxiliary battery 2 can realize gapless power supply.

When the main battery 1 is fully charged, a user inserts the main battery 1 into the mobile phone, after the main battery 1 touches the main battery connecting rod 8, the connecting end of the main battery connecting rod 8 is pushed to move upwards, under the action of the rotating shaft 9, the other end of the main battery connecting rod 8 moves downwards, meanwhile, the lifting plate 7 is driven to move downwards, the auxiliary battery connecting rod 5 is pressed to move downwards, the push rod 4 also moves downwards together, the auxiliary battery connecting rod 5 is separated from the positive electrode terminal 6 of the auxiliary battery 2, the auxiliary battery 2 does not supply power for the control main board 3 of the mobile phone any more, and the main battery 1 supplies power for the control main board 3 of the mobile phone instead.

When the battery management chip 10 monitors that the electric quantity of the secondary battery 2 is less than 80%, the battery management chip 10 controls the main battery 1 to charge the secondary battery 2, and when the electric quantity of the secondary battery 2 reaches 100%, the battery management chip 10 controls the main battery 1 not to charge the secondary battery 2 any more.

The above embodiments are not to be taken as limiting the scope of the invention, and any alternatives or modifications to the embodiments of the invention will be apparent to those skilled in the art and fall within the scope of the invention.

The present invention is not described in detail in the present application, and is well known to those skilled in the art.

Claims (1)

1. The uninterrupted power system for replacing the battery of the mobile phone is characterized by comprising a main battery and a secondary battery for providing electric energy for the mobile phone when the main battery is replaced, wherein the main battery and the secondary battery are connected with a control main board of the mobile phone, and a switcher for switching the power supply of the main battery or the secondary battery is arranged between the main battery and the secondary battery; the switcher comprises a vertically arranged push rod, a secondary battery connecting rod is horizontally arranged at the top end of the push rod, the outer end of the secondary battery connecting rod is opposite to the position of the positive electrode terminal of the secondary battery, a lifting plate is arranged at the inner end of the secondary battery connecting rod, one end of a main battery connecting rod is positioned above the lifting plate, a rotating shaft connected to the mobile phone body is arranged in the middle of the main battery connecting rod, and the other end of the main battery connecting rod is connected with the positive electrode end of the main battery;

the main battery and the auxiliary battery are connected with the battery management chip, and the push rod is slidably arranged in a slide rail arranged on the mobile phone body;

when a user needs to replace a battery, the user pushes the push rod to move upwards through a tool, so that the push rod pushes the auxiliary battery connecting rod to move upwards until the auxiliary battery connecting rod is contacted with the positive terminal of the auxiliary battery, and at the moment, the auxiliary battery is connected into the loop, and the auxiliary battery starts to supply power to a control main board of the mobile phone; when the auxiliary battery connecting rod moves upwards, the lifting plate arranged on the auxiliary battery connecting rod also moves upwards, the lifting plate pushes one end of the main battery connecting rod above the lifting plate to move upwards, the other end of the main battery connecting rod moves downwards, and in the process of withdrawing the main battery, the positive electrode of the main battery is not separated from the main battery connecting rod immediately, so that the switching between the main battery and the auxiliary battery can realize gapless power supply;

the user inserts the main battery into the mobile phone, after the main battery touches the main battery connecting rod, the connecting end of the main battery connecting rod is pushed to move upwards, under the action of the rotating shaft, the other end of the main battery connecting rod moves downwards, and meanwhile, the lifting plate is driven to move downwards, so that the auxiliary battery connecting rod is pressed to move downwards, the push rod moves downwards together, the auxiliary battery connecting rod is separated from the positive terminal of the auxiliary battery, the auxiliary battery does not supply power for the control main board of the mobile phone any more, and the main battery supplies power for the control main board of the mobile phone;

when the battery management chip monitors that the electric quantity of the secondary battery is smaller than 80%, the battery management chip controls the main battery to charge the secondary battery, and when the electric quantity of the secondary battery reaches 100%, the battery management chip controls the main battery to charge the secondary battery no longer.