CN204188780U - Lithium battery detection system and equipment and check-out console - Google Patents

Abstract

The utility model proposes a kind of hyperchannel lithium battery detection system, comprising: multiple detection interface (111), multiple check-out console (13) and communication board (15).Wherein, each check-out console (13) comprises input voltage transformer (131), detection signal load module (133) and photoelectrical coupler (135).Described multiple detection signal load modules (131) of described multiple check-out console (13) are electrically connected described multiple detection interface (111) respectively.Described multiple photoelectrical coupler (135) of described multiple check-out console (13) is respectively as the testing result data outputting module of described multiple check-out console (13).Communication board (15) is electrically connected described multiple photoelectrical coupler (135) of described multiple check-out console (13) to receive testing result data by data bus (16).The utility model also proposes the hyperchannel lithium battery checking equipment adopting above-mentioned hyperchannel lithium battery detection system and the check-out console adopted.The utility model has easy to detect, accuracy of detection comparatively advantages of higher.

Description

Lithium battery detection system and equipment and check-out console

Technical field

The utility model relates to cell art, particularly relates to a kind of hyperchannel lithium battery detection system, a kind of hyperchannel lithium battery checking equipment and a kind of check-out console.

Background technology

Lithium battery has the advantages such as capacity is high, volume is little, lightweight, and the lithium battery group be made up of multiple lithium battery monomer is then applied to many fields with its higher capacity, such as, in electric motor car, lithium battery group can be utilized to replace traditional lead-acid battery.

Traditional hyperchannel lithium battery detection system, multiple sense channel shares a check-out console, therefore be common ground between passage and passage, it cannot the lithium battery group that is made up of multiple lithium battery monomer of on-line checkingi, and need lithium battery assembling and dismantling to be become lithium battery monomer one by one to detect respectively, cause detection very inconvenient.

Utility model content

Therefore, for overcoming defect and the deficiency of prior art existence, the utility model proposes a kind of hyperchannel lithium battery detection system, a kind of hyperchannel lithium battery checking equipment and a kind of check-out console.

Particularly, a kind of hyperchannel lithium battery detection system that embodiment of the present utility model proposes, comprising: multiple detection interface, multiple check-out console and communication board.Wherein, each check-out console comprises input voltage transformer, detection signal load module and photoelectrical coupler.Described multiple detection signal load modules of described multiple check-out console are electrically connected described multiple detection interface respectively.Described multiple photoelectrical coupler of described multiple check-out console is respectively as the testing result data outputting module of described multiple check-out console.Communication board is electrically connected described multiple photoelectrical coupler of described multiple check-out console to receive testing result data by data bus.

In an embodiment of the present utility model, above-mentioned multiple detection interface is respectively four-core aviation socket.

In an embodiment of the present utility model, the described detection signal load module of above-mentioned each check-out console is connected to one of described multiple detection interface by four signal lines.

In an embodiment of the present utility model, above-mentioned communication board is serial communication plate.

In an embodiment of the present utility model, above-mentioned hyperchannel lithium battery detection system also comprises power interface and EMI (Electromagnetic Interference, electromagnetic interference (EMI)) filtration module.Described EMI filtration module is connected electrically between described power interface and described multiple input voltage transformers of described multiple check-out console.

In an embodiment of the present utility model, above-mentioned hyperchannel lithium battery detection system also comprises multiple probe groups.Described multiple probe groups is electrically connected to described multiple detection signal load modules of described multiple check-out console respectively.

In addition, a kind of hyperchannel lithium battery checking equipment that an embodiment more of the present utility model proposes, comprising: cabinet, heating radiator, air channel barrier, multiple check-out console, power interface, EMI filtration module and communication board.Wherein, described cabinet is provided with front panel, air inlet and air outlet.Described heating radiator and air channel barrier are arranged in described cabinet; Be formed with heat dissipation channel between described heating radiator and described air channel barrier, and in described cabinet, define the first accommodation space and the second accommodation space that lay respectively at described heat dissipation channel both sides; Described air inlet and air outlet lay respectively at the two ends of described heat dissipation channel.Described multiple check-out console is positioned at described first accommodation space and contacts with described radiator heat; Mutual electrical isolation between described multiple check-out console and include input voltage transformer and detection signal load module, and described multiple detection signal load modules of described multiple check-out console are electrically connected to described front panel respectively.Described power interface, EMI filtration module and communication board are at described second accommodation space and described EMI filtration module is connected electrically between described power interface and described multiple input voltage transformers of described multiple check-out console; Described communication board is electrically connected described multiple check-out console by data bus.

In an embodiment of the present utility model, above-mentioned multiple check-out console all also comprises photoelectrical coupler, thus described communication board is electrically connected described multiple photoelectrical coupler of described multiple check-out console to realize the electrical isolation between described multiple check-out console by described data bus.

In an embodiment of the present utility model, above-mentioned front panel is provided with multiple detection interface.Described multiple detection interface is electrically connected described multiple detection signal load modules of described multiple check-out console respectively.

In an embodiment of the present utility model, above-mentioned front panel is also provided with battery clamp.Described battery clamp comprises fixed part and movable part; Described fixed part is provided with multiple first probe, described movable part is provided with and described multiple first probe multiple second probe one to one; Described multiple first probe and described multiple second probe form multiple probe groups, and described multiple probe groups is electrically connected to described multiple detection signal load modules of described multiple check-out console respectively.

In an embodiment of the present utility model, above-mentioned hyperchannel lithium battery checking equipment also comprises air cleaner and radiator fan, is positioned at described heat dissipation channel.The contiguous described air inlet of described air cleaner is arranged, and the contiguous described air outlet of described radiator fan is arranged.

In addition, a kind of check-out console that another embodiment of the present utility model proposes, is suitable for being applied to hyperchannel lithium battery detection system.Described hyperchannel lithium battery detection system comprises communication board and multiple detection interface.Wherein, described check-out console comprises input voltage transformer, detection signal load module and electrical isolation device.Described detection signal load module is suitable for one of described multiple detection interface of electrical connection.Described electrical isolation device as described check-out console testing result output module and be suitable for being electrically connected to described communication board by data bus.

In an embodiment of the present utility model, above-mentioned electrical isolation device comprises photoelectrical coupler.

The beneficial effects of the utility model are: hyperchannel lithium battery detection system of the present utility model is by the novel designs to check-out console, each check-out console from electrically keeping apart, so can be tested the whole group of battery cell be together in series by direct-on-line by profit electrical isolation device such as photoelectrical coupler.In addition, radiator portion and circuit board section (such as check-out console, communication board, EMI filtration module) are kept apart by the cabinet inside structural design of hyperchannel lithium battery checking equipment, circuit board section does not have king-sized heat, a more satisfactory working environment can be ensured comparatively speaking, Comparision is stablized, and accuracy of detection is also more stable.In addition, by the design to front panel, both can realize the on-line checkingi of electric battery, also can realize the detection of the battery cell of different size.

Accompanying drawing explanation

Fig. 1 is the surface structure schematic perspective view of a kind of hyperchannel lithium battery checking equipment of embodiment of the present utility model.

Fig. 2 is the vertical view of the inner structure of the lithium battery checking equipment of hyperchannel shown in Fig. 1.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is described in detail, to make advantage of the present utility model and feature can be easier to be readily appreciated by one skilled in the art, thus more explicit defining is made to protection domain of the present utility model.

Refer to Fig. 1 and Fig. 2, the hyperchannel lithium battery checking equipment that the present embodiment proposes comprises: cabinet 10, multiple check-out console 13, power interface 14, communication board 15, EMI filtration module 17, heating radiator 18, air channel barrier 19, air cleaner 23 and radiator fan 24.

Wherein, as shown in Figure 1, cabinet 10 is provided with front panel 11.Front panel 11 is provided with multiple detection interface 111 and battery clamp.Shown in Fig. 1,16 are detected interface, and each detects interface 111 is such as four-core aviation socket, but the utility model is not as limit.Battery clamp comprises fixed part 112a and movable part 112b, fixed part 112a is provided with multiple first probe 113a, movable part 112b is provided with and described many first probe 113a multiple second probe 113b one to one; Described multiple first probe 113a and described multiple second probe 113b forms multiple probe groups, such as, 16 probe groups shown in Fig. 1.In addition, as shown in Figure 2, cabinet 10 is also provided with the air inlet 101 being positioned at its back side and the air outlet 103 being positioned at its right flank.

See also Fig. 1 and Fig. 2, heating radiator 18 and air channel barrier 19 are arranged in cabinet 10, and are formed with heat dissipation channel 20 between heating radiator 18 and air channel barrier 19; The quantity of heating radiator 18 can be decided according to the actual requirements, and it is such as four heating radiators being arranged in a line shown in Fig. 2; Each heating radiator 18 is configured with radiating fin to increase heat radiation specific surface area, and radiating fin is positioned at heat dissipation channel 20 side.The air inlet 101 of cabinet 10 and air outlet 103 lay respectively at the two ends of heat dissipation channel 20.In addition, heating radiator 18 and air channel barrier 19 also define the first accommodation space 21 and the second accommodation space 22 laying respectively at heat dissipation channel about 20 both sides in cabinet 10.In addition, air cleaner 23 be arranged on cabinet 10 heat dissipation channel 20 in and contiguous air inlet 101 arrange; In the heat dissipation channel 20 that radiator fan 24 is arranged on cabinet 10 and contiguous air outlet 103 arrange.Moreover the quantity of radiator fan 24 can set according to actual needs, and is not limited to two shown in Fig. 2.

Hold above-mentioned, each check-out console 13 is arranged in the first accommodation space 21 and forms thermo-contact with heating radiator 18 and electrical isolation each other.Each check-out console 13 comprises input voltage transformer 131, detection signal load module 133 and electrical isolation device such as photoelectrical coupler 135; Certainly, it also comprises functional circuit such as current detection circuit and the voltage detecting circuit etc. of other necessity.Wherein, the input voltage transformer 131 of each check-out console 13 is electrically connected to the outgoing side of EMI filtration module 17, and the input side of EMI filtration module 17 is electrically connected to power interface 14 such as 220V mains power socket.The detection signal load module 133 of each check-out console 13 is electrically connected to the corresponding detection interface 111 on front panel 11, and such as each detection signal load module 133 is electrically connected to the corresponding detection interface 111 on front panel 11 by four signal lines; These four signal lines such as comprise two current detection signal lines and two voltage detection signal lines.In addition, a corresponding person in multiple probe groups also can be electrically connected to this four signal lines.Moreover the photoelectrical coupler 135 of each check-out console 13 is electrically connected to communication board 15 by data bus 16; At this, data bus 16 is such as I2C (Inter-Integrated Circuit) bus, and the photoelectrical coupler 135 of each check-out console 13 is all articulated in I2C bus, with by the testing result data upload of each check-out console 13 to communication board 15, then by communication board 15 by testing result data upload to host computer such as personal computer.Be understandable that, data bus 16 is not limited to I2C bus, also can be other universal serial bus such as SPI (Serial PeripheralInterface, serial peripheral interface) buses, or even unibus.

In addition, power interface 14, communication board 15 and EMI filtration module 17 are positioned at the second accommodation space 22.At this, communication board 15 is such as serial communication plate, and it carries out communication by the serial port connecting wire such as RS232 and host computer, so that the testing result data from each check-out console 13 are provided to host computer after treatment.Communication board 15 is such as provided with single-chip microcomputer, and is provided with bus control module in single-chip microcomputer, to receive the testing result data of the photoelectrical coupler 135 from each check-out console 13.The high-frequency impulse of the EMI filtration module 17 mainly extraneous electrical network of filtering is to the interference of power supply, also have simultaneously and reduce power supply electromagnetic interference (EMI) to external world itself, it is the characteristic of sharp inductance and electric capacity, frequency is made to be that the alternating current of about 50Hz can smoothly by wave filter, and higher than the high frequency interference clutter of more than 50Hz by filtered device filtering.In one embodiment, EMI filtration module 17 such as comprises common mode inductance and filter capacitor.

It is worth mentioning that, in the hyperchannel lithium battery checking equipment of above-described embodiment, multiple detection interface 111, the multiple probe groups comprising the first probe 113a and the second probe 113b, multiple check-out console 13, power interface 14, communication board 15 and EMI filtration module 17 form the hyperchannel lithium battery detection system of an embodiment of the present utility model.But be understandable that, the hyperchannel lithium battery detection system of the present embodiment also can not arrange probe groups.

In sum, hyperchannel lithium battery checking equipment/system of the present utility model is by the novel designs to check-out console, each check-out console from electrically keeping apart, so can be tested the whole group of battery cell be together in series by direct-on-line by profit electrical isolation device such as photoelectrical coupler.In addition, radiator portion and circuit board section (such as check-out console, communication board, EMI filtration module) are kept apart by the cabinet inside structural design of hyperchannel lithium battery checking equipment, circuit board section does not have king-sized heat, a more satisfactory working environment can be ensured comparatively speaking, Comparision is stablized, and accuracy of detection is also more stable.In addition, by the design to front panel, both can realize the on-line checkingi of electric battery, also can realize the detection of the battery cell of different size.Therefore, the utility model has easy to detect, accuracy of detection comparatively advantages of higher.

The foregoing is only embodiment of the present utility model; not thereby scope of patent protection of the present utility model is limited; every equivalent structure transformation utilizing the utility model instructions and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (13)

1. a hyperchannel lithium battery detection system, is characterized in that, comprising:

Multiple detection interface (111);

Multiple check-out console (13), include input voltage transformer (131), detection signal load module (133) and photoelectrical coupler (135), described multiple detection signal load modules (133) of described multiple check-out console (13) are electrically connected described multiple detection interface (11) respectively, and described multiple photoelectrical coupler (135) of described multiple check-out console (13) is respectively as the testing result data outputting module of described multiple check-out console (13);

Communication board (15), is electrically connected described multiple photoelectrical coupler (135) of described multiple check-out console (13) to receive testing result data by data bus (16).

2. hyperchannel lithium battery detection system as claimed in claim 1, it is characterized in that, described multiple detection interface (111) is respectively four-core aviation socket.

3. hyperchannel lithium battery detection system as claimed in claim 1, it is characterized in that, the described detection signal load module (133) of check-out console described in each (13) is connected to one of described multiple detection interface (111) by four signal lines (12).

4. hyperchannel lithium battery detection system as claimed in claim 1, it is characterized in that, described communication board (15) is serial communication plate.

5. hyperchannel lithium battery detection system as claimed in claim 1, it is characterized in that, described hyperchannel lithium battery detection system also comprises power interface (14) and EMI filtration module (17), and described EMI filtration module (17) is connected electrically between described power interface (14) and described multiple input voltage transformers (131) of described multiple check-out console (13).

6. hyperchannel lithium battery detection system as claimed in claim 1, it is characterized in that, described hyperchannel lithium battery detection system also comprises multiple probe groups (113a, 113b), described multiple probe groups (113a, 113b) is electrically connected to described multiple detection signal load modules (133) of described multiple check-out console (13) respectively.

7. a hyperchannel lithium battery checking equipment, is characterized in that, comprising:

Cabinet (10), described cabinet (10) is provided with front panel (11), air inlet (101) and air outlet (103);

Heating radiator (18) and air channel barrier (19), be arranged in described cabinet (10), be formed with heat dissipation channel (20) between described heating radiator (18) and described air channel barrier (19) and define at described cabinet (10) two ends that the first accommodation space (21) of laying respectively at described heat dissipation channel (20) both sides and the second accommodation space (22), described air inlet (101) and described air outlet (103) lay respectively at described heat dissipation channel (20);

Multiple check-out console (13), be positioned at described first accommodation space (21) and with described heating radiator (18) thermo-contact, mutual electrical isolation between described multiple check-out console (13) and the described multiple detection signal load modules (133) including input voltage transformer (131) and detection signal load module (133) and described multiple check-out console (13) are electrically connected to described front panel (11) respectively; And

Power interface (14), EMI filtration module (17) and communication board, be positioned at described second accommodation space (22) and described EMI filtration module (17) is connected electrically between described power interface (14) and described multiple input voltage transformers (131) of described multiple check-out console (13), described communication board (15) is electrically connected described multiple check-out console (13) by data bus (16).

8. hyperchannel lithium battery checking equipment as claimed in claim 7, it is characterized in that, described multiple check-out console (13) all also comprises photoelectrical coupler (135), thus described communication board (15) is electrically connected described multiple photoelectrical coupler (135) of described multiple check-out console (13) to realize the mutual electrical isolation between described multiple check-out console (13) by described data bus (16).

9. hyperchannel lithium battery checking equipment as claimed in claim 7, it is characterized in that, described front panel (11) is provided with multiple detection interface (111), described multiple detection interface (111) is electrically connected described multiple detection signal load modules (133) of described multiple check-out console (13) respectively.

10. the hyperchannel lithium battery checking equipment as described in claim 7 or 9, is characterized in that, (11) are provided with battery clamp to described front panel, and described battery clamp comprises fixed part (112a) and movable part (112b); Described fixed part (112a) is provided with multiple first probe (113a), described movable part (112b) is provided with and described multiple first probe (113a) multiple second probe (113b) one to one, described multiple first probe (113a) and described multiple second probe (113b) form multiple probe groups, and described multiple probe groups is electrically connected to described multiple detection signal load modules (133) of described multiple check-out console (13) respectively.

11. hyperchannel lithium battery checking equipments as claimed in claim 7, it is characterized in that, described hyperchannel lithium battery checking equipment also comprises air cleaner (23) and radiator fan (24), is positioned at described heat dissipation channel (20); The contiguous described air inlet (101) of described air cleaner (23) is arranged, and the contiguous described air outlet (103) of described radiator fan (24) is arranged.

12. 1 kinds of check-out consoles (13), are suitable for being applied to hyperchannel lithium battery detection system, and described hyperchannel lithium battery detection system comprises communication board (15) and multiple detection interface (111); It is characterized in that, described check-out console (13) comprising:

Input voltage transformer (131);

Detection signal load module (133), is suitable for one of described multiple detection interface (111) of electrical connection; And

Electrical isolation device, as described check-out console (13) testing result output module and be suitable for being electrically connected to described communication board (15) by data bus (16).

13. check-out consoles (13) as claimed in claim 12, it is characterized in that, described electrical isolation device comprises photoelectrical coupler (135).