CN208923307U - A kind of serondary lithium battery taking the energy in solar energy - Google Patents

Abstract

The utility model discloses a kind of serondary lithium batteries for taking the energy in solar energy, including battery main body, the outer surface of the battery main body is socketed with shell, the side of the battery main body is respectively arranged with anode interface and cathode interface, the outer surface of the anode interface and cathode interface is respectively sleeved on positive dustproof cover and cathode dustproof cover, this kind takes the energy that the serondary lithium battery of solar energy is provided with positive transfer chamber and cathode transfer chamber, when battery is charged, time relay meeting self-clocking inside positive transfer chamber, when reaching preset value between when charging, the time relay will make a response, so that contact tube disconnects, and it is abnormal in battery charging and leads to anode interface and cathode interface when the temperature is excessively high, temperature sensor inside cathode transfer chamber can send a signal to miniature circuit breaker, so that miniature circuit breaker is disconnected Open circuit terminates charging, so as to avoid battery overcharged the problem of causing damage.

Description

A kind of serondary lithium battery taking the energy in solar energy

Technical field

The utility model relates to serondary lithium battery technical field, specially a kind of secondary lithium electricity for taking the energy in solar energy Pond.

Background technique

Solar energy refers to the infrared radiant energy of the sun, and main performance is exactly the sunray often said, is typically used as sending out in the modern times Electricity provides the energy for water heater.

Lithium ion secondary battery generally includes electrode assembly, accommodates the container and electrolyte of the electrode assembly, the electrode group Part includes opposite polarity two electrodes and partition, which includes the perforated membrane containing ceramic particle cluster, which is logical It crosses and is formed with binder bonded particulate cluster, each cluster of particle is either all or part of by dissolution and recrystallization by sintering Ceramic particle and formed, which includes the ceramic material with band gap, and each cluster of particle can have grape cluster or thin The shape of layer, and can be formed by the ceramic particle of lamination scale or chip shape.

Existing serondary lithium battery in application process can be too long due to the charging time, so as to cause battery It reduces, and being possible to can be when the charger using mistake charges to battery, there is a phenomenon where battery explosion, it may be to using Personnel cause to damage, and when battery is lain idle, and the metal object that positive and negative anodes may contact causes short circuit and do not have to accumulation for a long time Certain dust, so that lithium battery is impaired.

Utility model content

The purpose of this utility model is to provide a kind of serondary lithium batteries for taking the energy in solar energy, to solve above-mentioned background In technology propose battery it is overcharged cause damage and battery shelve positive and negative anodes may contact metal object cause short circuit and for a long time The problem of without accumulating certain dust.

To achieve the above object, the utility model provides the following technical solutions: a kind of secondary lithium taking the energy in solar energy Battery, including battery main body, the outer surface of the battery main body are socketed with shell, and the side of the battery main body is respectively arranged with The outer surface of anode interface and cathode interface, the anode interface and cathode interface is respectively sleeved on positive dustproof cover and cathode is anti- Dirt lid, the interior side of the battery main body are provided with sealing room, and the inside of the sealing room is respectively arranged with exchange membrane, electrolysis Matter solution, cathode metal stick and cathode graphite flake, the exchange membrane are located at the centre of electrolyte solution, the cathode metal stick and One end of cathode graphite flake is provided with contact tube, and two contact tubes far from cathode metal stick and cathode graphite flake one End connect respectively with anode interface and cathode interface, the inside other side of the battery main body be respectively arranged with positive transfer chamber with Cathode transfer chamber, the anode transfer chamber are internally provided with the time relay, and being internally provided with for the cathode transfer chamber is small Type breaker and temperature sensor.

Preferably, the anode interface and cathode interface pass through screw thread and connect with positive dustproof cover and the disassembly of cathode dustproof cover It connects.

Preferably, the area of the shell be greater than battery main body area, and the shell using copper material make and At.

Preferably, the positive dustproof cover is identical with the size of cathode dustproof cover, and the positive dustproof cover and cathode are anti- Dirt lid is all made of plastic production and forms.

Preferably, the time relay and miniature circuit breaker are located at the outer surface of two contact tubes, and described lead Fulgurite is made using aluminum material.

Preferably, the cathode metal stick uses rubber by exchange membrane and cathode graphite flake mirror settings, the sealing room Glue material is made.

Compared with prior art, the utility model has the beneficial effects that this kind takes the energy in the serondary lithium battery of solar energy It is provided with positive transfer chamber and cathode transfer chamber, when battery is charged, the time relay inside positive transfer chamber can be certainly Dynamic timing, when charging between when reaching preset value, the time relay will make a response, so that contact tube disconnects, and in battery Being abnormal when charging leads to anode interface and cathode interface when the temperature is excessively high, the temperature sensor meeting inside cathode transfer chamber Miniature circuit breaker is sent a signal to, so that miniature circuit breaker disconnecting circuit, terminates charging, it is overcharged so as to avoid battery The problem of causing damage, and this kind takes the energy that the serondary lithium battery of solar energy is provided with positive dustproof cover and cathode dustproof cover, When battery is lain idle, positive dustproof cover and cathode dustproof cover are connect in such a way that screw thread engages with anode interface and cathode Mouthful connection, and then solve anode interface and cathode interface may contact that metal object causes short circuit and not have to accumulation for a long time certain Dust the problem of, finally this kind takes the energy that the serondary lithium battery of solar energy is provided with shell, due to shell using copper make It forms, copper material has low melting point, the characteristic of high thermal conductivity coefficient, when thermal runaway situation occurs in battery use process, outside Shell can quickly absorb and transmit heat, reduce the heat aggregation of battery, thermal runaway risk is reduced, to improve the safety of battery Performance.

Detailed description of the invention

Fig. 1 is the utility model battery main body structural schematic diagram；

Fig. 2 bows for the utility model battery main body and cuts open structural schematic diagram；

Fig. 3 is that the utility model battery main body just cuts open structural schematic diagram.

In figure: 1, battery main body；2, shell；3, positive dustproof cover；4, exchange membrane；5, cathode dustproof cover；6, cathode metal Stick；7, electrolyte solution；8, cathode graphite flake；9, contact tube；10, positive transfer chamber；11, cathode transfer chamber；12, small-sized open circuit Device；13, cathode interface；14, temperature sensor；15, the time relay；16, anode interface；17, screw thread；18, room is sealed.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

In the utility model: time relay model SJ23, miniature circuit breaker model A9/EC65, temperature sensor Model CWH850.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of secondary lithium electricity taking the energy in solar energy Pond, including battery main body 1, shell 2, positive dustproof cover 3, exchange membrane 4, cathode dustproof cover 5, cathode metal stick 6, electrolyte solution 7, cathode graphite flake 8, contact tube 9, positive transfer chamber 10, cathode transfer chamber 11, miniature circuit breaker 12, cathode interface 13, temperature Sensor 14, the time relay 15, anode interface 16, screw thread 17 and sealing room 18, the outer surface of the battery main body 1 is socketed with Shell 2, the area of the shell 2 is greater than the area of battery main body 1, and the shell 2 is made using copper material, copper Material has low melting point, the characteristic of high thermal conductivity coefficient, and when thermal runaway situation occurs in battery use process, shell 2 can be fast Speed absorbs and transmits heat, reduces the heat aggregation of battery, reduces thermal runaway risk, so that the security performance of battery is improved, institute The side for stating battery main body 1 is respectively arranged with anode interface 16 and cathode interface 13, the anode interface 16 and cathode interface 13 By screw thread 17 and positive dustproof cover 3 and 5 dismantling connection of cathode dustproof cover, the anode dustproof cover 3 and cathode dustproof cover 5 Size is identical, and the positive dustproof cover 3 and cathode dustproof cover 5 are all made of plastic production and form, and the material of plastics is light, and thoroughly It is bright, it can prevent anode interface 16 and cathode interface 13 from contacting metal object and cause short circuit and do not have to accumulate certain dust for a long time, And waterproof effect to a certain extent can be played, dismantling connection facilitates anode interface 16 and cathode interface 13 and anode dust-proof It is dust-proof that the outer surface of 5 dismantling connection of lid 3 and cathode dustproof cover, the anode interface 16 and cathode interface 13 is respectively sleeved on anode Lid 3 and cathode dustproof cover 5, the interior side of the battery main body 1 are provided with sealing room 18, the inner part of the sealing room 18 It is not provided with exchange membrane 4, electrolyte solution 7, cathode metal stick 6 and cathode graphite flake 8, the cathode metal stick 6 passes through exchange Film 4 and 8 mirror settings of cathode graphite flake, the sealing room 18 are made using rubber material, and rubber can insulate, so that close Internal electric current can be completely cut off by sealing room 18, and the exchange membrane 4 is located at the centre of electrolyte solution 7, the cathode metal stick 6 It is provided with contact tube 9 with one end of cathode graphite flake 8, and two contact tubes 9 are far from cathode metal stick 6 and cathode graphite One end of piece 8 is connect with anode interface 16 and cathode interface 13 respectively, and the inside other side of the battery main body 1 is respectively arranged with Positive transfer chamber 10 and cathode transfer chamber 11, the anode transfer chamber 10 are internally provided with the time relay 15, the time Relay 15 and miniature circuit breaker 12 are located at the outer surface of two contact tubes 9, and the contact tube 9 uses aluminum material system It forms, aluminum material electric conductivity is strong, so that contact tube 9 is more efficient, being internally provided with for the cathode transfer chamber 11 is small-sized Breaker 12 and temperature sensor 14.

Working principle: when head needs to be charged serondary lithium battery, it is dust-proof that anode is removed by rotation screw thread 17 first Then lid 3 and cathode dustproof cover 5 are powered on by anode interface 16 and cathode interface 13, can be charged, in secondary lithium When battery is charged, the time relay 15 inside positive transfer chamber 10 can self-clocking, when charging between reach preset value When, the time relay 15 will make a response, so that contact tube 9 disconnects, and being abnormal in battery charging causes anode to connect At mouth 16 and cathode interface 13 when the temperature is excessively high, the temperature sensor 14 of cathode transfer chamber 11 can send a signal to small-sized open circuit Device 12, disconnecting circuit terminate charging, and the damage for preventing serondary lithium battery to be likely to occur finally has charged serondary lithium battery Positive dustproof cover 3 is covered after finishing and cathode dustproof cover 5 saves.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of serondary lithium battery for taking the energy in solar energy, including battery main body (1), it is characterised in that: the battery main body (1) outer surface is socketed with shell (2), and the side of the battery main body (1) is respectively arranged with anode interface (16) and cathode connects The outer surface of mouth (13), the anode interface (16) and cathode interface (13) is respectively sleeved on positive dustproof cover (3) and cathode is anti- Dirt lid (5), the interior side of the battery main body (1) are provided with sealing room (18), and the inside of sealing room (18) is set respectively It is equipped with exchange membrane (4), electrolyte solution (7), cathode metal stick (6) and cathode graphite flake (8), the exchange membrane (4) is located at electricity One end of the centre of electrolyte solution (7), the cathode metal stick (6) and cathode graphite flake (8) is provided with contact tube (9), and The one end of two contact tubes (9) far from cathode metal stick (6) and cathode graphite flake (8) respectively with anode interface (16) and bear Pole interface (13) connection, the inside other side of the battery main body (1) are respectively arranged with positive transfer chamber (10) and cathode conduction Room (11), anode transfer chamber (10) are internally provided with the time relay (15), the inside of the cathode transfer chamber (11) It is provided with miniature circuit breaker (12) and temperature sensor (14).

2. a kind of serondary lithium battery for taking the energy in solar energy according to claim 1, it is characterised in that: the anode connects Mouth (16) and cathode interface (13) pass through screw thread (17) and positive dustproof cover (3) and cathode dustproof cover (5) dismantling connection.

3. a kind of serondary lithium battery for taking the energy in solar energy according to claim 1, it is characterised in that: the shell (2) area is greater than the area of battery main body (1), and the shell (2) is made using copper material.

4. a kind of serondary lithium battery for taking the energy in solar energy according to claim 1, it is characterised in that: the anode is anti- Dirt lid (3) is identical with the size of cathode dustproof cover (5), and the positive dustproof cover (3) and cathode dustproof cover (5) are all made of plastics It is made.

5. a kind of serondary lithium battery for taking the energy in solar energy according to claim 1, it is characterised in that: the time after Electric appliance (15) and miniature circuit breaker (12) are located at the outer surface of two contact tubes (9), and the contact tube (9) uses aluminum Material is made.

6. a kind of serondary lithium battery for taking the energy in solar energy according to claim 1, it is characterised in that: the anode gold Belong to stick (6) by exchange membrane (4) and cathode graphite flake (8) mirror settings, the sealing room (18) using rubber material production and At.