CN210111198U - Power supply starting line with battery data detection function, power line host and power supply connection equipment - Google Patents

Abstract

The utility model relates to a power supply line with battery data detection, a power line host and a power supply connection device, which are used for connecting a mobile phone and a power supply device; the power supply startup line with the battery data detection function comprises a battery decoder, a transmission line, a host connector and a mobile phone connector; the battery decoder is connected with the transmission line and comprises battery data of the mobile phone; one end of the transmission line, which is far away from the battery decoder, is connected with the host connector, and the other end of the transmission line, which is far away from the battery decoder, is connected with the mobile phone connector; the host connector is used for connecting the power supply device; the mobile phone connector is used for connecting a battery interface terminal of a mobile phone; the mobile phone matches the battery data sent by the battery decoder with the preset battery data of the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder; the battery decoder controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information. The power supply startup line controls the transmission of current through the battery decoder.

Description

Power supply starting line with battery data detection function, power line host and power supply connection equipment

Technical Field

The utility model relates to a cell-phone maintenance accessory technical field especially relates to a take power on-line, power cord host computer and power connection equipment that battery data detected.

Background

With the rapid development of science and technology, mobile phones have been widely used in people's lives, bringing great convenience to people's lives, such as communication, payment, remote control, etc. When the mobile phone is maintained under the condition that the battery is not available, the mobile phone needs to be started up first. At present, a power supply device is generally used for supplying power, and a power line is connected with the power supply device and the mobile phone so as to start the mobile phone. However, some mobile phone brands have their own charging data, and a general power cord cannot power on such mobile phones.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a power on/off line with battery data detection, a power line main unit and a power connection device having simple structures.

A power supply startup line with battery data detection is used for connecting a mobile phone and a power supply device; the power supply startup line with the battery data detection function comprises a battery decoder, a transmission line, a host connector and a mobile phone connector; the battery decoder is connected with the transmission line and comprises battery data of the mobile phone; one end of the transmission line, which is far away from the battery decoder, is connected with the host connector, and the other end of the transmission line, which is far away from the battery decoder, is connected with the mobile phone connector; the host connector is used for connecting the power supply device; the mobile phone connector is used for connecting a battery interface terminal of a mobile phone; the mobile phone matches the battery data sent by the battery decoder with the battery data preset by the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder; and the battery decoder controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information.

The power supply starting line with the battery data detection of the utility model is respectively connected with the battery decoder, the host connector and the mobile phone connector through the transmission line; the mobile phone matches the battery data sent by the battery decoder with the preset battery data of the mobile phone, and the battery decoder controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information, so that the starting problem of the mobile phone under the condition of no battery is solved. This power start line structure with battery data detection is simple, convenient to carry.

In one embodiment, the battery decoder is correspondingly matched with a battery of a mobile phone; the mobile phone connector is correspondingly matched with a battery interface terminal of the mobile phone.

In one embodiment, the host connector is connected with an external power line host, and the power line host is connected with a power supply device.

A kind of power supply junction equipment, is used for connecting power supply and providing device and mobile phone; the power supply connecting equipment comprises a power supply line host and the power supply starting line with the battery data detection function; one end of the power line host is connected with a host connector of the power supply on-line with the battery data detection, and the other end of the power line host is connected with the power supply device.

A power line host is used for connecting a power supply device and a mobile phone; the power line host comprises a battery decoder and a shell; the battery decoder is arranged on the shell and comprises battery data of the mobile phone; one end of the battery decoder is electrically connected with the power supply device, and the other end of the battery decoder is electrically connected with the mobile phone; the mobile phone matches the battery data sent by the battery decoder with the battery data preset by the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder; and the battery decoder controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information.

In one embodiment, the battery decoder is correspondingly matched with a battery of the mobile phone.

In one embodiment, the mobile phone further comprises a display, and the display is used for displaying the current input into the mobile phone.

In one embodiment, the power supply device further comprises a power supply positive electrode and a power supply negative electrode which are arranged in the shell; and the power supply anode and the power supply cathode are respectively used for being connected with the power supply device.

In one embodiment, an interface is also provided; the interface is used for connecting an external power supply startup wire; the interface is arranged at one end of the shell, which is far away from the power supply anode and the power supply cathode.

A kind of power supply junction equipment, is used for connecting power supply and providing device and mobile phone; the power supply connecting equipment comprises a power supply starting line and the power supply line host machine; one end of the power supply starting wire is connected with the power line host, and the other end of the power supply starting wire is connected with the battery interface terminal of the mobile phone.

Drawings

Fig. 1 is a schematic structural diagram of a power on line with battery data detection according to an embodiment of the present invention;

fig. 2 is a diagram of an example of an application of a power connection device with a battery data detection power line provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a power line host according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of the power line host of FIG. 3;

fig. 5 is a diagram of an example of an application of a power connection device of a power line host provided in an embodiment of the present invention.

Reference is made to the accompanying drawings in which:

a power on line 100 with battery data detection;

battery decoder 10, transmission line 20, opening 21, host connector 30, handset connector 40;

the power supply connection device 100 a;

a power supply starting line 100 with battery data detection, a power supply line host 50a, a shell 51a, a power supply anode 52a, a power supply cathode 53a and a display 54 a;

a power line host 200;

a battery decoder 10b, a case 20b, a power supply positive electrode 30b, a power supply negative electrode 40b, and a display 50 b;

the power supply connection device 200 c;

power cord main unit 200, power on line 60c, transmission line 61c, main unit connecting device 62c, and mobile phone connector 63 c.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The first embodiment is as follows:

referring to fig. 1, a power line 100 with battery data detection according to an embodiment of the present invention is used for connecting a mobile phone and a power supply device; the power on line 100 with battery data detection comprises a battery decoder 10, a transmission line 20, a host connector 30 and a mobile phone connector 40; the battery decoder 10 is connected to the transmission line 20, and the battery decoder 10 contains the battery data of the mobile phone; one end of the transmission line 20 far away from the battery decoder 10 is connected with the host connector 30, and the other end of the transmission line 20 far away from the battery decoder 10 is connected with the mobile phone connector 40; the host connector 30 is used for connecting a power supply device; the mobile phone connector 40 is used for connecting a battery interface terminal of a mobile phone; the mobile phone matches the battery data sent by the battery decoder 10 with the preset battery data of the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder 10; the battery decoder 10 controls the current to be transmitted from the power supply device to the cellular phone according to the fed-back matching information. The power supply starting-up line 100 with battery data detection of the utility model is respectively connected with the battery decoder 10, the host connector 30 and the mobile phone connector 40 through the transmission line 20; the mobile phone matches the battery data sent by the battery decoder 10 with the preset battery data of the mobile phone, and the battery decoder 10 controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information, so that the starting problem of the mobile phone under the condition of no battery is solved.

As shown in fig. 1, in the present embodiment, the battery decoder 10 is connected to the transmission line 20; the battery decoder 10 contains the battery data of the mobile phone, such as the charging current, charging voltage, battery level, charging times, and information of the battery manufacturer. The battery decoder 10 is correspondingly matched with the battery of the mobile phone, and the data of each brand of mobile phone is different, so that each brand of mobile phone needs the corresponding battery decoder 10; for example, Huache mobile phone requires a Huache battery decoder, and millet requires a millet battery decoder. The battery data information is sent to the mobile phone through the battery decoder 10, and after the mobile phone acquires the battery data, the battery data is matched with preset data of the mobile phone; if the matching is successful, the current is transmitted to the mobile phone from the power supply device, so that the mobile phone is started. Alternatively, the battery decoder 10 is in the form of a sheet, a plate, a strip, or the like.

One end of the transmission line 20, which is far away from the battery decoder 10, is connected with the mobile phone connector 40, the other end of the transmission line 20, which is far away from the battery decoder 10, is connected with the host connector 30, and then the battery decoder 10 enables the power supply device to establish communication connection with the mobile phone; the exterior of the transmission line 20 is made of an insulating material to protect the transmission line 20; optionally, the transmission line 20 is provided with an opening 21, and the opening 21 is disposed corresponding to a front area of the battery decoder 10 to expose the front of the battery decoder 10 for maintenance and heat dissipation of the battery decoder 10. Further, the host connector 30 is connected to an external power line host, and the power line host is connected to a power supply device. The mobile phone connector 40 is correspondingly matched with a battery interface terminal of a mobile phone, and the mobile phone connectors 40 may be different for mobile phones of the same brand and different models.

When the mobile phone is used, a proper power supply on-line 100 with battery data detection is selected according to the type of the mobile phone, the host computer and the machine 30 are connected with a power supply device, and the mobile phone connector 40 is connected with a battery interface terminal of the mobile phone; the battery decoder 10 sends the battery data information to the mobile phone, and after the mobile phone acquires the battery data, the battery data is matched with preset data of the mobile phone; if the matching is successful, transmitting the current from the power supply device to the mobile phone, so as to start the mobile phone; the power supply device is connected with the mobile phone through the battery decoder 10.

The transmission line 20 of the utility model is respectively connected with the battery decoder 10, the host connector 30 and the mobile phone connector 40; the mobile phone matches the battery data sent by the battery decoder 10 with the preset battery data of the mobile phone, and the battery decoder 10 controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information, so that the starting problem of the mobile phone under the condition of no battery is solved. The power supply starting-up wire 100 with the battery data detection function is simple in structure and convenient to carry.

Please refer to fig. 2, which is an application example diagram of a power connection device 100a of a power on-off line 100 with battery data detection provided in an embodiment of the present invention, based on the above embodiment, in an optional embodiment, the power on-off line 100 with battery data detection is applied to a power connection device 100a for connecting a power supply device and a mobile phone; the power connection device 100a includes the power on line 100 with battery data detection and the power line host 50 connected to the power on line 100 with battery data detection as described above; one end of the power line host 50 is connected to a host connector of the power on line 100 with battery data detection, and the other end is connected to a power supply device. Optionally, the power line main unit 50a includes a housing 51a, and a power supply positive electrode 52a and a power supply negative electrode 53a built in the housing 51 a; the power supply positive electrode 52a and the power supply negative electrode 53a are respectively used for connecting a power supply device. The power line host 50a is further provided with an interface (not shown); the interface is for connecting the host connector 30 a; optionally, the interface is disposed at one end of the housing 51a away from the power supply anode 52a and the power supply cathode 53 a; the interface is arranged corresponding to a power supply starting line 100 with battery data detection; further, the interface is a USB interface; the number of the power supply starting lines 100 with the battery data detection is one or more, and the number of the interfaces is one or more. In other embodiments, the interface is another power transmission interface; alternatively, the power supply line 100 with battery data detection and the power supply line main unit 50a are integrally formed and fixedly connected. In order to know the working state in time, the power line host 50a further includes a display 54a connected to the housing 51a, and the display 54a is used for displaying the current input into the mobile phone. Optionally, the display 54a is a nixie tube.

In one embodiment, the input voltage range of the power line host 50a is 3V to 30V; the output voltage range of the power line host 50a is 3V to 10V; alternatively, the input voltage range of the power line host 50a is 5V to 19V; the output voltage of the power line main unit 50a is 4V. Further, the power line main unit 50a has an automatic power-off protection function; the highest 28V can not burn the power line host 50a, and the power line host exceeds 28V for automatic power-off protection. When the mobile phone is used, a proper power supply on-off line 100 with battery data detection is selected according to the type of the mobile phone, and then the power supply anode 52a and the power supply cathode 53a are respectively connected with a power supply device; the host connector is connected with the power line host 50a, and then the mobile phone connector is connected with the battery interface terminal of the mobile phone, so that the mobile phone can be used.

Example two:

referring to fig. 3 and 4, a power line host 200 according to an embodiment of the present invention is used for connecting a power supply device and a mobile phone; the power cord main body 200 includes a battery decoder 10b and a case 20 b; the battery decoder 10b is installed in the casing 10b, the battery decoder 10b includes the battery data of the mobile phone; one end of the battery decoder 10b is electrically connected with the power supply device, and the other end is electrically connected with the mobile phone; the mobile phone matches the battery data sent by the battery decoder 10b with the preset battery data of the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder 10 b; the battery decoder 10b controls the current to be transmitted from the power supply device to the cellular phone according to the fed-back matching information. The battery decoder 10b is correspondingly matched with the battery of the mobile phone, so that the starting problem of the mobile phone under the condition of no battery is solved. The battery decoder 10b has the same structure as the battery decoder 10 of the previous embodiment, and will not be described in detail here.

The power cord main unit 200 further includes a power supply positive electrode 30b and a power supply negative electrode 40b built in the case 20 b; the power supply positive electrode 30b and the power supply negative electrode 40b are respectively used for connecting a power supply device. The power line host 200 is further provided with an interface (not shown); the interface is used for connecting an external power supply startup wire; optionally, the interface is disposed at one end of the casing 20b away from the power supply positive electrode 30b and the power supply negative electrode 40 b; the interface is arranged corresponding to an external power supply startup line; further, the interface is a USB interface; the number of the power supply startup wires is one or more than one, and the number of the interfaces is one or more than one. In other embodiments, the interface is another power transmission interface; alternatively, the power on line and the power line host 200 are integrally formed and fixedly connected. In order to know the working state in time, the power line host 200 further includes a display 50b connected to the housing 20b, and the display 50b is used for displaying the current input into the mobile phone. Optionally, the display 50b is a nixie tube.

In one embodiment, the input voltage range of the power line host 200 is 3V to 30V; the output voltage range of the power line host 200 is 3V to 10V; alternatively, the input voltage range of the power line host 200 is 5V to 19V; the output voltage of the power line host 200 is 4V. Further, the power line host 200 has an automatic power-off protection function; the highest 28V can not burn the power line host 200, and the power line host can automatically power off and protect the power line by exceeding 28V. When the mobile phone is used, a proper power supply starting line is selected according to the type of the mobile phone, and then the power supply anode 30b and the power supply cathode 40b are respectively connected with a power supply device; one end of the power supply startup line is connected with the power supply line host 200, and the other end of the power supply startup line is connected with the battery interface terminal of the mobile phone.

Please refer to fig. 5, which is an application example diagram of a power connection device 200c of the power line host 200 according to the embodiment of the present invention, on the basis of the above embodiment, in an optional embodiment, the power line host 200 is applied to a power connection device 200c for connecting a power supply device and a mobile phone; the power connection device 200c includes a power on line 60c and the power line host 200 as described above; one end of the power supply on-off line 60c is connected to the power supply line main unit 200, and the other end is connected to the battery interface terminal of the mobile phone. Optionally, the power on line 60c includes a transmission line 61c, and a host computer connector 62c and a mobile phone connector 63c respectively connected to the transmission line 61 c; the host computer connecting machine 62c is used for connecting the power line host computer 200, and the mobile phone connector 63c is used for connecting a battery interface terminal of a mobile phone; further, the exterior of the transmission line 61c is made of an insulating material to protect the transmission line 61 c; the mobile phone connector 63c is correspondingly matched with the battery interface terminal of the mobile phone.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A power supply startup line with battery data detection is used for connecting a mobile phone and a power supply device and is characterized in that the power supply startup line with battery data detection comprises a battery decoder, a transmission line, a host connector and a mobile phone connector; the battery decoder is connected with the transmission line and comprises battery data of the mobile phone; one end of the transmission line, which is far away from the battery decoder, is connected with the host connector, and the other end of the transmission line, which is far away from the battery decoder, is connected with the mobile phone connector; the host connector is used for connecting the power supply device; the mobile phone connector is used for connecting a battery interface terminal of a mobile phone; the mobile phone matches the battery data sent by the battery decoder with the battery data preset by the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder; and the battery decoder controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information.

2. The power on line with battery data detection of claim 1, wherein the battery decoder is correspondingly matched with a battery of a mobile phone; the mobile phone connector is correspondingly matched with a battery interface terminal of the mobile phone.

3. A power switch line with battery data detection as claimed in claim 1, wherein the host connector is connected to an external power line host, and the power line host is connected to a power supply device.

4. A power connection device for connecting a power supply device and a mobile phone, wherein the power connection device comprises a power line host and a power on/off line with battery data detection as claimed in any one of claims 1 to 3; one end of the power line host is connected with a host connector of the power supply on-line with the battery data detection, and the other end of the power line host is connected with the power supply device.

5. A power line host is used for connecting a power supply device and a mobile phone and is characterized by comprising a battery decoder and a shell; the battery decoder is arranged on the shell and comprises battery data of the mobile phone; one end of the battery decoder is electrically connected with the power supply device, and the other end of the battery decoder is electrically connected with the mobile phone; the mobile phone matches the battery data sent by the battery decoder with the battery data preset by the mobile phone to obtain matching information, and feeds the matching information back to the battery decoder; and the battery decoder controls the current to be transmitted from the power supply device to the mobile phone according to the feedback matching information.

6. The power line host of claim 5, wherein the battery decoder is correspondingly matched with a battery of the mobile phone.

7. The power line host of claim 5, further comprising a display for displaying the amount of current input to the handset.

8. The power line host of claim 5, further comprising a power supply positive electrode and a power supply negative electrode built in the housing; and the power supply anode and the power supply cathode are respectively used for being connected with the power supply device.

9. The power line host of claim 8, further comprising an interface; the interface is used for connecting an external power supply startup wire; the interface is arranged at one end of the shell, which is far away from the power supply anode and the power supply cathode.

10. A power connection device for connecting a power supply device and a mobile phone, wherein the power connection device comprises a power on line and a power line host machine according to any one of claims 5 to 9; one end of the power supply starting wire is connected with the power line host, and the other end of the power supply starting wire is connected with the battery interface terminal of the mobile phone.

Images