CN210377491U - Mobile intelligent terminal - Google Patents

Abstract

The utility model discloses a mobile intelligent terminal, including host computer, battery and install the battery cover at the host computer back, the host computer back is equipped with the female probe of at least two first springs that are used for transmission power supply and two at least second springs that are used for receiving fingerprint data that are connected with main circuit board electricity respectively, wherein, still includes: the battery cover is provided with a fingerprint module and a bridging circuit board, wherein the fingerprint module is arranged in the battery cover and used for acquiring fingerprint data, and the bridging circuit board is electrically connected with the fingerprint module and used for transmitting the fingerprint data; the at least two spring type male probes are respectively electrically connected with the bridging circuit board and used for receiving a power supply, and the at least two spring type male probes are used for transmitting fingerprint data; the battery cover is provided with a window for the fingerprint module to acquire fingerprint data; the first spring type female probe is electrically connected with the third spring type male probe in a matching way; the second spring type female probe is electrically connected with the fourth spring type male probe in a matched mode, and fingerprint data are transmitted to the main circuit board.

Description

Mobile intelligent terminal

Technical Field

The utility model relates to a terminal field especially relates to a mobile intelligent terminal.

Background

In recent years, with increasing importance placed on fingerprint collection by public security departments of various countries, the public security departments and other government units can acquire fingerprint information when performing outside duty, and at present, the outside duty personnel cannot conveniently acquire the fingerprint information on site, which results in lower working efficiency.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, also can gather fingerprint information to need when outer on duty to public security department and other government units among the prior art, and present field personnel can not convenient collection fingerprint information's defect at the scene, provide a mobile intelligent terminal.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a structure mobile intelligent terminal, includes host computer, battery and installs the battery cover at the host computer back, the host computer back is equipped with at least two first spring female probes that are used for transmission power supply and at least two second spring female probes that are used for receiving fingerprint data that are connected with main circuit board electricity respectively, wherein, still includes:

the battery cover comprises a fingerprint module and a bridging circuit board, wherein the fingerprint module is arranged in the battery cover and used for acquiring fingerprint data, and the bridging circuit board is electrically connected with the fingerprint module and used for transmitting the fingerprint data;

the at least two spring type male probes are respectively electrically connected with the bridging circuit board and used for receiving a power supply, and the at least two spring type male probes are used for transmitting fingerprint data;

the battery cover is provided with a window for the fingerprint module to acquire fingerprint data;

the first spring type female probe and the third spring type male probe are matched and electrically connected, and power is supplied to the fingerprint module through the bridging circuit board;

the second spring type female probe is electrically connected with the fourth spring type male probe in a matched mode, and the fingerprint data are transmitted to the main circuit board.

Preferably, mobile intelligent terminal in, the fingerprint module is optics fingerprint module.

Preferably, mobile intelligent terminal in, the battery cover openly be equipped with one with the window that the fingerprint module corresponds, the bridge circuit board is installed the fingerprint module dorsad on the positive one side of battery cover.

Preferably, in the mobile intelligent terminal of the present invention, the fingerprint module is electrically connected to the bridge circuit board through the pin header.

Preferably, in the mobile intelligent terminal of the present invention, one end of the third spring type male probe and one end of the fourth spring type male probe pass through a pad on the bridge circuit board and are electrically connected to the first spring type female probe and the second spring type female probe, and the third spring type male probe and the fourth spring type male probe are welded on the pad;

the battery cover corresponding to the third spring type male probe is provided with a corresponding number of through holes, so that the other end of the third spring type male probe is exposed out of the outer surface of the front surface of the battery cover and is connected with an external charging seat to charge the battery.

Preferably, in the mobile intelligent terminal of the present invention, the terminal includes: the two spring type male probe sets are arranged on two sides of the bridge circuit board, and the two spring type female probe sets are arranged on the back of the host and correspond to the spring type male probe sets;

each reed-type male probe set comprises: the two third spring type male probes, the two fourth spring type male probes and a connecting piece are used for inserting one ends of the two third spring type male probes and the two fourth spring type male probes and clamping and fixing the other ends of the two third spring type male probes and the two fourth spring type male probes;

the two sides of the bridge circuit board are respectively provided with four bonding pads for inserting one ends of the two third spring type male probes and the two fourth spring type male probes, the connecting piece is clamped and fixed on the bridge circuit board, and the two third spring type male probes and the two fourth spring type male probes are welded on the bonding pads;

each spring type female probe group comprises: the two first spring type female probes and the two second spring type female probes.

Preferably, in the mobile intelligent terminal, two the spring formula public probe group corresponds the positive department of battery cover both sides is equipped with two through-holes respectively, supplies two respectively the other end of third spring formula public probe appears in the positive surface department of battery cover is connected with outside charging seat, does the battery charges.

Preferably, in the mobile intelligent terminal of the present invention, each of the spring type male probe sets is composed of two third spring type male probes and two fourth spring type male probes arranged vertically.

Preferably, in the mobile intelligent terminal of the present invention, the terminal further includes a display for displaying the fingerprint data.

Through implementing the utility model discloses, the inside fingerprint module that is used for acquireing fingerprint data that sets up of terminal battery cover to gather fingerprint data transmission to the terminal through bridge circuit board and spring probe and preserve, increased mobile intelligent terminal's fingerprint collection function, the indoor outdoor operation personnel's of being convenient for fingerprint collection, fingerprint ratio are more develoies of peer-to-peer work.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic diagram of the mobile intelligent terminal of the present invention;

fig. 2 is a schematic diagram of the mobile intelligent terminal of the present invention with the battery cover and part of the housing removed;

fig. 3 is the utility model discloses the schematic diagram of spring probe group in the mobile intelligent terminal.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is the utility model discloses mobile intelligent terminal's schematic diagram, fig. 2 is the utility model discloses mobile intelligent terminal removes the schematic diagram behind battery cover and the partial casing, and fig. 3 is the utility model discloses mobile intelligent terminal middle spring type probe group's schematic diagram, refer to fig. 1-3, the utility model discloses a mobile intelligent terminal has been constructed, including host computer 1, battery 2 and install the battery cover 3 at 1 back of the host computer, 1 back of the host computer is equipped with respectively and is used for transmission power supply's first spring female probe 4 with main circuit board electricity at least two and at least two second spring female probes 5 that are used for receiving fingerprint data, wherein, still includes:

the battery cover is respectively arranged inside the battery cover 3 and is used for acquiring a fingerprint module 8 of fingerprint data, and the bridging circuit board 9 is electrically connected with the fingerprint module 8 and is used for transmitting the fingerprint data;

at least two third spring type male probes 6 used for receiving power and at least two fourth spring type male probes 7 used for transmitting fingerprint data, which are respectively and electrically connected with the bridging circuit board 9.

The first spring type female probe 4 is electrically connected with the third spring type male probe 6 in a matched mode, and power is supplied to the fingerprint module 8 through the bridging circuit board 9;

the second spring type female probe 5 is electrically connected with the fourth spring type male probe 7 in a matched mode, and fingerprint data are transmitted to the main circuit board;

the terminal is still including the display that is used for showing fingerprint data, shows the fingerprint data that 8 acquisition of fingerprint module.

Specifically, fingerprint module 8 is optical fingerprint module. The preferred fingerprint module is BM-SLIM2, BM-SLIM2 is FAP20 certified fingerprint scanner, with a range of sophisticated technologies. In addition to the 13.5 mm ultra-thin optical sensor, BM-SLIM2 also possesses the proprietary technology of Suprerema. Multiple Dynamic Range (MDR) technology, FBI PIV/Mobile ID FAP20 compliance, and Android device support. BM-SLIM2 also ensures long-term stable operation through its reduced form factor and ultra-thin optical sensors. BM-SLI2 provides new and advanced application machine learning methods, analysis and implementation of real-time finger detection (LFD) technology.

Because the user need place the finger on fingerprint module 8, make fingerprint module 8 acquire fingerprint data, consequently in this embodiment, be equipped with a window that is used for fingerprint module 8 to acquire fingerprint data on battery cover 3. And preferably, the fingerprint module 8 is arranged inside the front surface of the battery cover 3, and a window corresponding to the fingerprint module 8 is arranged on the front surface of the battery cover 3. In other embodiments, the fingerprint module 8 can be disposed inside the side surface of the battery cover 3, and a window corresponding to the fingerprint module 8 is disposed on the side surface of the battery cover 3, which is not described herein again.

The bridging circuit board 9 plays a bridging role in the embodiment, and is installed on one side of the fingerprint module 8, which faces away from the front face of the battery cover 3, the fingerprint module 8 is electrically connected with the bridging circuit board 9 through a pin row, the bridging circuit board 9 is electrically connected with the main circuit board through a spring type probe, and fingerprint data acquired by the fingerprint module 8 is transmitted to the main circuit board through the bridging circuit board 9 and then displayed on a display of the terminal.

And the spring probe is also used for transmission in this embodiment, and first spring female probe 4 is connected with third spring male probe 6 cooperation electricity, is the power supply of fingerprint module 8 through bridging circuit board 9. The second spring type female probe 5 is electrically connected with the fourth spring type male probe 7 in a matched mode, and fingerprint data are transmitted to the main circuit board. One ends of the third spring type male probe 6 and the fourth spring type male probe 7 penetrate through a bonding pad on the bridging circuit board 9 to be electrically connected with the first spring type female probe 4 and the second spring type female probe 5, and the third spring type male probe 6 and the fourth spring type male probe 7 are welded on the bonding pad.

The third spring type male probe 6 is electrically connected with the first spring type female probe 4 in a matching way and can also charge the battery 2, so that through holes with corresponding quantity are formed in the position of the battery cover 3 corresponding to the third spring type male probe 6, the other end of the third spring type male probe 6 is exposed at the outer surface of the front side of the battery cover 3 and is electrically connected with an external seat to charge the battery 2.

In this embodiment, for the best mode of the spring-type probe, the terminal includes: the spring type male probe sets are arranged on two sides of the bridge circuit board 9, and the spring type female probe sets are arranged on the back of the host 1 and correspond to the spring type male probe sets;

each reed-type male probe set comprises: the device comprises two third spring type male probes 6, two fourth spring type male probes 7 and a connecting piece 10 used for inserting one ends of the two third spring type male probes 6 and the two fourth spring type male probes 7 and clamping and fixing the other ends of the two third spring type male probes and the two fourth spring type male probes 7. Each spring type female probe group comprises: two first spring type female probes 4 and two second spring type female probes 5. Wherein, the other end of the three-spring type male probe 6 is protruded on the connecting piece 10.

Four pads are respectively arranged on two sides of the bridge circuit board 9 and used for inserting one ends of the two third spring type male probes 6 and the two fourth spring type male probes 7, the connecting piece 10 is clamped and fixed on the bridge circuit board 9, and the two third spring type male probes 6 and the two fourth spring type male probes 7 are welded on the pads. In the present embodiment, in each spring type male probe set, two third spring type male probes 6 and two fourth spring type male probes 7 are vertically arranged, the two third spring type male probes 6 are disposed at two ends of the connecting member 10, and the two fourth spring type male probes 7 are disposed at the middle position of the connecting member 10.

In order to charge the battery 2, the front parts of the two sides of the battery cover 3 corresponding to the two spring type male probe sets are respectively provided with two through holes, the other ends of the two third spring type male probes 6 are respectively exposed out of the outer surface of the front part of the battery cover 3 and are connected with an external charging seat to charge the battery.

In other embodiments, the first and second sets of spring type male probe sets may be disposed on the bridge circuit board 9 and the second and third sets of spring type female probe sets may be disposed on the back of the host 1, and the first and second sets of spring type male probe sets and the second and third sets of spring type female probe sets may be disposed on the bridge circuit board 9 according to the number of the functional modules disposed on the bridge circuit board 9.

Completely, the working principle of the identity recognition technology based on the mobile intelligent terminal is as follows: the terminal is connected and the bridging circuit board 9 supplies power for fingerprint module 8 through the cooperation electricity of first spring female probe 4 and third spring male probe 6, and fingerprint module 8 acquires fingerprint data under operating condition, and fingerprint module 8 is connected through bridging circuit board 9 and second spring female probe 5 and fourth spring male probe 7's cooperation electricity, with fingerprint data transmission to the main circuit board at terminal, the display at terminal shows fingerprint content information.

Through implementing the utility model discloses, the inside fingerprint module that is used for acquireing fingerprint data that sets up of terminal battery cover to gather fingerprint data transmission to the terminal through bridge circuit board and spring probe and preserve, increased mobile intelligent terminal's fingerprint collection function, the indoor outdoor operation personnel's of being convenient for fingerprint collection, fingerprint ratio are more develoies of peer-to-peer work.

It is to be understood that the foregoing examples merely represent preferred embodiments of the present invention, and that the description thereof is more specific and detailed, but not intended to limit the scope of the invention; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several modifications and improvements can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all changes and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (9)

1. The utility model provides a mobile intelligent terminal, includes host computer (1), battery (2) and installs battery cover (3) at host computer (1) back, its characterized in that, host computer (1) back is equipped with at least two first spring female probes (4) that are used for transmission power supply that are connected with main circuit board electricity respectively and at least two second spring female probes (5) that are used for receiving fingerprint data, wherein, still includes:

the battery cover is respectively arranged inside the battery cover (3) and used for acquiring a fingerprint module (8) of fingerprint data, and the battery cover is electrically connected with the fingerprint module (8) and used for transmitting the fingerprint data;

at least two third spring type male probes (6) used for receiving power supply and at least two fourth spring type male probes (7) used for transmitting fingerprint data, wherein the at least two third spring type male probes are respectively and electrically connected with the bridging circuit board (9);

the battery cover (3) is provided with a window for the fingerprint module (8) to acquire fingerprint data;

the first spring type female probe (4) is electrically connected with the third spring type male probe (6) in a matched mode, and power is supplied to the fingerprint module (8) through the bridging circuit board (9);

the second spring type female probe (5) is electrically connected with the fourth spring type male probe (7) in a matched mode, and the fingerprint data are transmitted to the main circuit board.

2. The mobile intelligent terminal of claim 1, wherein the fingerprint module (8) is an optical fingerprint module.

3. The mobile intelligent terminal according to claim 1, wherein the battery cover (3) has a window corresponding to the fingerprint module (8) on the front surface, and the bridge circuit board (9) is installed on a side of the fingerprint module (8) facing away from the front surface of the battery cover (3).

4. The mobile intelligent terminal according to claim 1, wherein the fingerprint module (8) is electrically connected with the bridge circuit board (9) through pin headers.

5. The mobile intelligent terminal according to claim 1, wherein one end of the third spring type male probe (6) and one end of the fourth spring type male probe (7) penetrate through a pad on the bridging circuit board (9) to be electrically connected with the first spring type female probe (4) and the second spring type female probe (5), and the third spring type male probe (6) and the fourth spring type male probe (7) are welded on the pad;

the battery cover (3) corresponding to the third spring type male probe (6) is provided with a corresponding number of through holes, so that the other end of the third spring type male probe (6) is exposed out of the outer surface of the front surface of the battery cover (3), is connected with an external charging seat and charges the battery (2).

6. The mobile intelligent terminal according to claim 1, wherein the terminal comprises: the two spring type male probe sets are arranged on two sides of the bridging circuit board (9), and the two spring type female probe sets are arranged on the back of the host (1) corresponding to the spring type male probe sets;

each reed-type male probe set comprises: the spring type probe comprises two third spring type male probes (6), two fourth spring type male probes (7) and a connecting piece (10) which is used for inserting one ends of the two third spring type male probes (6) and the two fourth spring type male probes (7) and clamping and fixing the other ends of the two third spring type male probes and the two fourth spring type male probes;

four bonding pads are respectively arranged on two sides of the bridging circuit board (9) and used for inserting one ends of the two third spring type male probes (6) and the two fourth spring type male probes (7), the connecting piece (10) is clamped and fixed on the bridging circuit board (9), and the two third spring type male probes (6) and the two fourth spring type male probes (7) are welded on the bonding pads;

each spring type female probe group comprises: the two first spring type female probes (4) and the two second spring type female probes (5).

7. The mobile intelligent terminal according to claim 6, wherein two through holes are respectively formed in the front surfaces of the two sides of the battery cover (3) corresponding to the two spring type male probe sets, so that the other ends of the two third spring type male probes (6) are respectively exposed at the outer surface of the front surface of the battery cover (3) and connected with an external charging seat to charge the battery.

8. The mobile intelligent terminal according to claim 6, wherein in each of the spring type male probe sets, two of the third spring type male probes (6) and two of the fourth spring type male probes (7) are vertically arranged.

9. The mobile intelligent terminal of claim 1, wherein the terminal further comprises a display for displaying fingerprint data.

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