A kind of cell anti-reverse connection device of electronic sealing
Technical field
The utility model relates to electronic sealing technical field, particularly a kind of cell anti-reverse connection device of electronic sealing.
Background technology
Electronic sealing needs to provide external cell when opening/closing latching operation, and the device that electronic sealing itself is pointed out without any LED/ buzzer etc., the LED used on external cell is needed to carry out operation indicating, therefore the joint for external cell not only needs the both positive and negative polarity providing DC power supply, and also need provides at least 2 supplied for electronic sealings to carry out the control pin of the LED of operation indicating simultaneously.Due to the operation factors of electronic sealing, needing the connection of battery and separate can be convenient and swift, can reversal connection be prevented, avoid the contact in sealing to expose as far as possible, also need to come off because of the vibrations of sealing when operating or to cause powered battery to be interrupted simultaneously.Existing aerial lug part, is difficult to meet above all demands simultaneously.
Utility model content
The purpose of this utility model is the cell anti-reverse connection device providing a kind of electronic sealing, solves the problem of electric shock reversal connection when electronic sealing is connected with battery in prior art.
According to an aspect of the present utility model, provide a kind of cell anti-reverse connection device of electronic sealing, comprising:
Be arranged on the first electronic sealing joint magnetic element on electronic sealing positive terminal;
Be arranged on the second electronic sealing joint magnetic element on electronic sealing anode connector;
Be arranged on the first battery contact magnetic element on the positive terminal of electronic sealing battery;
Be arranged on the second battery contact magnetic element on the anode connector of electronic sealing battery;
Wherein, the magnetic of described first electronic sealing joint magnetic element working face is contrary with the magnetic of the first battery contact magnetic element working face, and same with the Magnetic Phase of the second battery contact magnetic element working face;
Wherein, the magnetic of described second electronic sealing joint magnetic element working face is contrary with the magnetic of the second battery contact magnetic element working face, and same with the Magnetic Phase of the first battery contact magnetic element working face.
Preferably, the magnetic of described first electronic sealing joint magnetic element working face is contrary with the magnetic of described second electronic sealing joint magnetic element working face.
Preferably, the magnetic of described first battery contact magnetic element working face is contrary with the magnetic of described second battery contact magnetic element working face.
Preferably, the magnetic of described first electronic sealing joint magnetic element working face is N pole; The magnetic of described first battery contact magnetic element working face is S pole; The magnetic of described second battery contact magnetic element working face is N pole; The magnetic of described second electronic sealing joint magnetic element working face is S pole; The magnetic of described second battery contact magnetic element working face is N pole; The magnetic of described first battery contact magnetic element working face is S pole.
Preferably, the magnetic of described first electronic sealing joint magnetic element working face is S pole; The magnetic of described first battery contact magnetic element working face is N pole; The magnetic of described second battery contact magnetic element working face is S pole; The magnetic of described second electronic sealing joint magnetic element working face is N pole; The magnetic of described second battery contact magnetic element working face is S pole; The magnetic of described first battery contact magnetic element working face is N pole.
Preferably, described first electronic sealing joint magnetic element fits on electronic sealing positive terminal; Described second electronic sealing joint magnetic element fits on electronic sealing anode connector; Described first battery contact magnetic element fits on the positive terminal of electronic sealing battery; Described second battery contact magnetic element fits on the anode connector of electronic sealing battery.
Compared with prior art, the beneficial effects of the utility model are:
The utility model utilizes the homopolar-repulsion of magnet steel, the feature that heteropole is attracting, when electronic sealing is connected with battery, can ensures that the order that electronic sealing is connected with the contact on battery is correct, improve Consumer's Experience.
Below in conjunction with accompanying drawing, structure of the present utility model and principle are described in detail.
Accompanying drawing explanation
Fig. 1 is the structure chart of the cell anti-reverse connection device of a kind of electronic sealing that the utility model embodiment provides;
Fig. 2 is the side schematic view of the electronic sealing connection battery that the utility model embodiment provides;
Fig. 3 is the battery elevational schematic view that the utility model embodiment provides.
Description of reference numerals: 1-electronic sealing; 2-battery; 11-first electronic sealing joint magnetic element; 12-second electronic sealing joint magnetic element; 13-electronic sealing positive terminal; 14-electronic sealing anode connector; 21-first battery contact magnetic element; 22-second battery contact magnetic element; 23-anode joint; 24-battery cathode joint.
Embodiment
Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, should be appreciated that following illustrated preferred embodiment is only for instruction and explanation of the utility model, and be not used in restriction the utility model.
Fig. 1 shows the structure chart of the cell anti-reverse connection device of a kind of electronic sealing that the utility model embodiment provides, and as shown in Figure 1, comprising: be arranged on the first electronic sealing joint magnetic element 11 on electronic sealing positive terminal; Be arranged on the second electronic sealing joint magnetic element 12 on electronic sealing anode connector; Be arranged on the first battery contact magnetic element 21 on the positive terminal of electronic sealing battery; Be arranged on the second battery contact magnetic element 22 on the anode connector of electronic sealing battery; Wherein, the magnetic of described first electronic sealing joint magnetic element 11 working face is contrary with the magnetic of the first battery contact magnetic element 21 working face, and same with the Magnetic Phase of the second battery contact magnetic element 22 working face; Wherein, the magnetic of described second electronic sealing joint magnetic element 12 working face is contrary with the magnetic of the second battery contact magnetic element 22 working face, and same with the Magnetic Phase of the first battery contact magnetic element 21 working face.
Wherein, the magnetic of described first electronic sealing joint magnetic element 11 working face is contrary with the magnetic of described second electronic sealing joint magnetic element 12 working face.The magnetic of described first battery contact magnetic element 21 working face is contrary with the magnetic of described second battery contact magnetic element 22 working face.
The magnetic of described first electronic sealing joint magnetic element 11 working face is N pole; The magnetic of described first battery contact magnetic element 21 working face is S pole; The magnetic of described second battery contact magnetic element 22 working face is N pole; The magnetic of described second electronic sealing joint magnetic element 12 working face is S pole; The magnetic of described second battery contact magnetic element 22 working face is N pole; The magnetic of described first battery contact magnetic element 21 working face is S pole.
The magnetic of described first electronic sealing joint magnetic element 11 working face is S pole; The magnetic of described first battery contact magnetic element 21 working face is N pole; The magnetic of described second battery contact magnetic element 22 working face is S pole; The magnetic of described second electronic sealing joint magnetic element 12 working face is N pole; The magnetic of described second battery contact magnetic element 22 working face is S pole; The magnetic of described first battery contact magnetic element 21 working face is N pole.
Described first electronic sealing joint magnetic element 11 fits on electronic sealing positive terminal 13; Described second electronic sealing joint magnetic element 12 fits on electronic sealing anode connector 14; Described first battery contact magnetic element 21 fits on the positive terminal 23 of electronic sealing battery; Described second battery contact magnetic element 22 fits on the anode connector 24 of electronic sealing battery.
The electronic sealing that Fig. 2 shows the utility model embodiment to be provided connects the side schematic view of battery, as shown in Figure 2, comprising: the magetic indicator joint 3 of electronic sealing 1, battery 2 and electronic sealing.Utilize the homopolar-repulsion of magnet steel, the operation principle that heteropole is attracting, two magnetic joints of electronic sealing arrange the magnet of S pole and the magnet of N pole respectively, on two magnetic joints of battery, correspondence arranges the magnet of N pole and the magnet of S pole respectively.Namely 2 contact-making surfaces on electronic sealing magnetic joint arrange N and S of magnet steel as working face respectively, and 2 contact-making surfaces on battery magnetic suction head also arrange N and S of magnet steel as working face, and it is contrary with electronic sealing arrangement, thus make the contact-making surface of electronic lead sealing and battery only when magnet steel not homopolarity can contact, ensure that conductive contact can correctly contact, thus anti-reverse effect can be reached.
Fig. 3 shows the battery elevational schematic view that the utility model embodiment provides, as shown in Figure 3, battery with the magnetic joint of four contacts, wherein, the magnet steel of two contact-making surfaces uses N pole and S pole as working face respectively, and contrary with the working face polarity of electronic sealing.Wherein, be electrically connected by copper contact between battery with electronic sealing.
In sum, the utility model has following technique effect:
The utility model utilizes the homopolar-repulsion of magnet steel, the feature that heteropole is attracting, when electronic sealing is connected with battery, can ensures that the order that electronic sealing is connected with the contact on battery is correct, improve Consumer's Experience.
Although be described in detail the utility model above, the utility model has been not limited thereto, and those skilled in the art of the present technique can carry out various amendment according to principle of the present utility model.Therefore, all amendments done according to the utility model principle, all should be understood to fall into protection range of the present utility model.