CN201910472U - Anti-theft battery jar in mobile communication base station - Google Patents

Abstract

The utility model provides an anti-theft battery jar in a mobile communication base station, which comprises at least two battery jar batteries in series connection with each other, wherein battery jar tracking anti-theft devices are mounted in shells of the battery jar batteries; and two power-supply ends of each battery jar tracking anti-theft device are respectively connected with two output ends of the battery jar batteries. The anti-theft battery jar in the mobile communication base station further comprises an adjustable voltage-stabilized power supply with two ends thereof respectively connected with the two output ends of the battery jar batteries. By adopting the battery jar structure and the GPS technology, the anti-theft battery jar in the mobile communication base station has the advantages of simple structure, scientific circuit design, convenience in use, low cost, high alarm sensitivity, capability in real-time tracking, and good anti-theft effect.

Description

The antitheft storage battery in mobile communication base station

Technical field

The utility model relates to a kind of storage battery, specifically, relates to the antitheft storage battery in a kind of mobile communication base station.

Background technology

It is often stolen to be positioned at open-air mobile communication base station, and after the theft, the probability of solving a case is very little, has caused very big property loss to enterprise.For this reason, people are seeking a kind of desirable technical solution always.

Summary of the invention

The utility model is at the deficiencies in the prior art, but the antitheft storage battery in mobile communication base station of a kind of easy to use, high real-time tracing of warning sensitivity, good anti-theft effect is provided.

The technical scheme that the utility model adopted is as follows: the antitheft storage battery in a kind of mobile communication base station, include at least two battery batteries that are cascaded, storage battery is installed in the shell of described battery battery follows the tracks of anti-theft device, two feeder ears of described storage battery tracking anti-theft device are connected to two outputs of described battery battery.

The antitheft storage battery in this mobile communication base station also includes adjustable stabilized voltage supply, and the two ends of described adjustable stabilized voltage supply are connected to two outputs of described battery battery.

Described storage battery is followed the tracks of anti-theft device and is included microcontroller circuit, GPS locating module, mobile communication module, power module and booster circuit, described GPS locating module is connected described microcontroller circuit respectively with described mobile communication module, described power module connects described microcontroller circuit, described GPS locating module and described mobile communication module respectively, and the voltage output end of described booster circuit connects described power module.

Described booster circuit comprises boost chip U1, field effect transistor Q1, diode D1, diode D2, inductance L 1, resistance R 1, resistance R 2, capacitor C 1, capacitor C 2, capacitor C 3, capacitor C 4 and capacitor C 5; Wherein, described capacitor C 1 one ends are used to connect mobile communication base station battery voltage output, described capacitor C 1 other end ground connection; Described diode D1 positive pole is used to connect mobile communication base station battery voltage output, and described diode D1 negative pole connects 2 pin and 3 pin of the described chip U1 that boosts respectively; Described capacitor C 3 one ends connect described diode D1 negative pole, described capacitor C 3 other end ground connection; 4 pin of the described chip U1 that boosts connect the grid of described field effect transistor Q1, and the drain electrode of described field effect transistor Q1 connects described diode D2 positive pole, and described diode D2 negative pole is as the voltage output end of booster circuit; Described inductance L 1 one ends are used to connect mobile communication base station battery voltage output, and described inductance L 1 other end connects described diode D2 positive pole; 1 pin of the described chip U1 that boosts connects described resistance R 2 one ends, described resistance R 2 other end ground connection; 1 pin of the described chip U1 that boosts connects described resistance R 1 one ends, and described resistance R 1 other end connects described diode D2 negative pole; Described capacitor C 2 is connected in parallel on described resistance R 1 two ends; Described diode D2 negative pole connects described capacitor C 4 one ends and described capacitor C 5 one ends respectively, described capacitor C 4 other ends and described capacitor C 5 other end ground connection; The 5 pin ground connection of the described chip U1 that boosts, the source ground of described field effect transistor Q1; Described model of boosting chip U1 is CE9908, and the model of described field effect transistor Q1 is CE2300.

The utility model has substantive distinguishing features and progress with respect to prior art, specifically, the antitheft storage battery in this mobile communication base station has utilized the structure and the GPS location technology of storage battery self cleverly, but that it has is simple in structure, the circuit design science, easy to use, cost is low, the advantage of the high real-time tracing of warning sensitivity, good anti-theft effect.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the electrical block diagram that described storage battery is followed the tracks of anti-theft device;

Fig. 3 is the circuit theory schematic diagram of described booster circuit.

Embodiment

For further instruction design feature of the present utility model, the existing embodiment that provides in conjunction with the accompanying drawings:

As shown in Figure 1, the antitheft storage battery in a kind of mobile communication base station, include at least two battery batteries that are cascaded, storage battery is installed in the shell of described battery battery 1 follows the tracks of anti-theft device 2, two feeder ears of described storage battery tracking anti-theft device 2 are connected to two outputs of described battery battery 1;

Storage battery is followed the tracks of anti-theft device 2 and is arranged in the shell of battery battery 1, has disguise, and thief is difficult for finding, and the power supply of battery battery can make it continuous firing completely more than two months, is beneficial to tracking, is beneficial to public security organ's detection larceny case.

Because following the tracks of anti-theft device 2, described storage battery needs electricity consumption, cause that piece battery battery 1 in use to consume certain electric energy for its power supply, this will cause this piece battery battery and other battery battery well not to mate, and causes whole storage battery power supply instability; For this reason, the antitheft storage battery in this mobile communication base station also includes adjustable stabilized voltage supply 3, and the two ends of described adjustable stabilized voltage supply 3 are connected to two outputs of described battery battery 1; Carry out auxiliary charging by 3 pairs of described battery batteries 1 of described adjustable stabilized voltage supply, efficiently solve the uneven problem of each battery battery power consumption, the supply power voltage of whole storage battery is remained in the float charge voltage scope that storage battery requires.

As shown in Figure 2, described storage battery is followed the tracks of anti-theft device and is included microcontroller circuit, GPS locating module, mobile communication module, power module and booster circuit;

Described booster circuit is used to connect two outputs of battery battery 1, and the voltage output end of described booster circuit connects described power module; Described power module connects described microcontroller circuit, described GPS locating module and described mobile communication module respectively so that required power supply to be provided;

By described booster circuit with battery battery 1 output output+the 2V direct current boosts and is+12V direct current, and offers power module, to satisfy the power demands of this device;

Described GPS locating module is connected described microcontroller circuit respectively with described mobile communication module; Described GPS locating module is gathered the geographical location information of mobile communication base station storage battery in real time; Described mobile communication module is used for the sending short message by mobile phone breath of Xiang Yuqi binding or dials mobile phone with its binding automatically, to send warning message or storage battery positional information;

Stolen or be moved when the mobile communication base station storage battery, according to the GPS information of gathering, and, carry out real-time tracing by microcontroller circuit by its inner setting program, and by the mobile communication module report to the police, the real-time GPS information of transmission storage battery.

As shown in Figure 3, described booster circuit comprises boost chip U1, field effect transistor Q1, diode D1, diode D2, inductance L 1, resistance R 1, resistance R 2, capacitor C 1, capacitor C 2, capacitor C 3, capacitor C 4 and capacitor C 5;

Wherein, described capacitor C 1 one ends are used to connect mobile communication base station battery voltage output, described capacitor C 1 other end ground connection; Described diode D1 positive pole is used to connect mobile communication base station battery voltage output, and described diode D1 negative pole connects 2 pin and 3 pin of the described chip U1 that boosts respectively; Described capacitor C 3 one ends connect described diode D1 negative pole, described capacitor C 3 other end ground connection; 4 pin of the described chip U1 that boosts connect the grid of described field effect transistor Q1, and the drain electrode of described field effect transistor Q1 connects described diode D2 positive pole, and described diode D2 negative pole is as the voltage output end of booster circuit; Described inductance L 1 one ends are used to connect mobile communication base station battery voltage output, and described inductance L 1 other end connects described diode D2 positive pole; 1 pin of the described chip U1 that boosts connects described resistance R 2 one ends, described resistance R 2 other end ground connection; 1 pin of the described chip U1 that boosts connects described resistance R 1 one ends, and described resistance R 1 other end connects described diode D2 negative pole; Described capacitor C 2 is connected in parallel on described resistance R 1 two ends; Described diode D2 negative pole connects described capacitor C 4 one ends and described capacitor C 5 one ends respectively, described capacitor C 4 other ends and described capacitor C 5 other end ground connection; The 5 pin ground connection of the described chip U1 that boosts, the source ground of described field effect transistor Q1; Described model of boosting chip U1 is CE9908, and the model of described field effect transistor Q1 is CE2300;

In booster circuit, produce high-frequency signal by the described chip U1 that boosts, amplify through described field effect transistor Q1, last again through diode D2 rectification again through capacitor C 4, capacitor C 5 filtering, this booster circuit output+12V direct current.

Claims (4)

1. antitheft storage battery in mobile communication base station, include at least two battery batteries that are cascaded, it is characterized in that: storage battery is installed in the shell of described battery battery follows the tracks of anti-theft device, two feeder ears of described storage battery tracking anti-theft device are connected to two outputs of described battery battery.

2. the antitheft storage battery in mobile communication base station according to claim 1 is characterized in that: the antitheft storage battery in this mobile communication base station also includes adjustable stabilized voltage supply, and the two ends of described adjustable stabilized voltage supply are connected to two outputs of described battery battery.

3. the antitheft storage battery in mobile communication base station according to claim 1 and 2, it is characterized in that: described storage battery is followed the tracks of anti-theft device and is included microcontroller circuit, GPS locating module, mobile communication module, power module and booster circuit, described GPS locating module is connected described microcontroller circuit respectively with described mobile communication module, described power module connects described microcontroller circuit, described GPS locating module and described mobile communication module respectively, and the voltage output end of described booster circuit connects described power module.

4. the antitheft storage battery in mobile communication base station according to claim 3 is characterized in that: described booster circuit comprises boost chip U1, field effect transistor Q1, diode D1, diode D2, inductance L 1, resistance R 1, resistance R 2, capacitor C 1, capacitor C 2, capacitor C 3, capacitor C 4 and capacitor C 5; Wherein, described capacitor C 1 one ends are used to connect mobile communication base station battery voltage output, described capacitor C 1 other end ground connection; Described diode D1 positive pole is used to connect mobile communication base station battery voltage output, and described diode D1 negative pole connects 2 pin and 3 pin of the described chip U1 that boosts respectively; Described capacitor C 3 one ends connect described diode D1 negative pole, described capacitor C 3 other end ground connection; 4 pin of the described chip U1 that boosts connect the grid of described field effect transistor Q1, and the drain electrode of described field effect transistor Q1 connects described diode D2 positive pole, and described diode D2 negative pole is as the voltage output end of booster circuit; Described inductance L 1 one ends are used to connect mobile communication base station battery voltage output, and described inductance L 1 other end connects described diode D2 positive pole; 1 pin of the described chip U1 that boosts connects described resistance R 2 one ends, described resistance R 2 other end ground connection; 1 pin of the described chip U1 that boosts connects described resistance R 1 one ends, and described resistance R 1 other end connects described diode D2 negative pole; Described capacitor C 2 is connected in parallel on described resistance R 1 two ends; Described diode D2 negative pole connects described capacitor C 4 one ends and described capacitor C 5 one ends respectively, described capacitor C 4 other ends and described capacitor C 5 other end ground connection; The 5 pin ground connection of the described chip U1 that boosts, the source ground of described field effect transistor Q1; Described model of boosting chip U1 is CE9908, and the model of described field effect transistor Q1 is CE2300.

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