CN214150982U - Intelligent battery test equipment - Google Patents

Abstract

The utility model provides an intelligent battery test equipment, including dismantled and assembled rack, multichannel power testing system, unit drawer structure, distribution controller, dismantled and assembled rack is whole from top to bottom the position adopts the combination of multilayer multichannel power testing system, the position configuration multilayer unit drawer structure in the middle of the dismantled and assembled rack, the independent distribution controller of dismantled and assembled rack top layer installation, the beneficial effects of the utility model reside in that: the intelligent battery test equipment is combined with the actual operation of a human body through a diversified drawer structure in the intelligent battery test equipment; the production experiment efficiency is improved, a large batch of batteries can be tested at the same time, and the problem that the batteries with multiple specifications and large batch cannot be tested by single equipment in the conventional battery test is solved; the multi-channel power supply testing system is arranged on the intelligent battery testing equipment, and is ingenious in design, safe to operate, convenient to install and maintain, small in occupied space, high in circuit integration degree, high in heat dissipation efficiency and flexible in application scene.

Description

Intelligent battery test equipment

[ technical field ] A method for producing a semiconductor device

The utility model relates to a battery test technical field especially relates to an intelligent battery test equipment.

[ background of the invention ]

The existing battery testing equipment has the advantages of small detection quantity and small detection range, so that the existing battery testing device can only meet the production detection requirements of batteries with small batches or single specifications, and when the batteries with different specifications are tested, the detection requirements and ranges of various batteries cannot be met by single equipment due to the small detection range, so that the detection efficiency of the batteries is reduced.

[ Utility model ] content

The utility model aims to solve the detection of current battery test equipment small in quantity, and the detection range is little, therefore current battery testing arrangement still only can satisfy the production detection demand of small batch volume or single specification battery, and the battery of different specifications is when testing, and single equipment is because the detection range to be directed against is less, can't satisfy the detection demand and the scope of multiple battery to the detection efficiency's of battery not enough and the neotype intelligent battery test equipment that provides has been reduced.

The utility model discloses a realize through following technical scheme:

the utility model provides an intelligent battery test equipment, includes dismantled and assembled rack, multichannel power test system, unit drawer structure, distribution controller, dismantled and assembled rack is whole from top to bottom the position adopts multilayer multichannel power test system combination, the position configuration multilayer unit drawer structure in the middle of the dismantled and assembled rack, dismantled and assembled rack top layer installation independent distribution controller.

Further, the detachable cabinet comprises a bottom plate, a support beam and a top cover, wherein the bottom plate is provided with a plurality of detachable support beams, the top of each support beam is provided with the top cover, the upper part and the lower part of each support beam are provided with power supply test installation positions, the power supply test installation positions are provided with a plurality of detachable multichannel power supply test systems, the middle of each support beam is provided with a mounting position for mounting a unit drawer, the unit drawer mounting positions are provided with a plurality of detachable unit drawer structures, the top layer of each support beam is provided with a mounting position for mounting power distribution control, and the power distribution control mounting positions are provided with power distribution controllers.

Further, the support beam comprises a first support beam, a second support beam, a third support beam, a fourth support beam, a connecting piece and a side panel, the first support beam is detachably connected with the second support beam through the connecting piece, the third support beam is detachably connected with the fourth support beam through the connecting piece, the detachable side panel is arranged on the outer side face between the first support beam and the second support beam, the detachable side panel is arranged on the outer side face between the third support beam and the fourth support beam, and a sliding rail is arranged on the connecting piece.

Furthermore, a plurality of universal wheels are arranged at the bottom of the bottom plate.

Further, the multichannel power supply testing system comprises a shell, a mounting plate, a control switch, a digital display screen, a control panel, an energy-saving inverter device, a temperature/communication plate, a transformer, a fan module, XWJ control plates, a voltage and current terminal interface, a temperature interface, a communication interface, a channel lamp interface, a network port interface and a socket, wherein the front surface of the shell is provided with the control panel, the control panel is provided with the control switch, one side of the control switch is provided with the digital display screen, the mounting plate is arranged in the shell, the energy-saving inverter device is arranged on the mounting plate, the temperature/communication plate is arranged on one side of the energy-saving inverter device, the transformer is arranged on one side of the temperature/communication plate, the plurality of fan modules are arranged in front of the temperature/communication plate, the plurality of XWJ control plates are arranged in front of the fan, the utility model discloses a temperature control device, including voltage and current terminal interface, communication interface, control switch, digital display screen, energy-conserving inverter device, temperature/communication board, transformer, fan module, voltage and current terminal interface, temperature interface, communication interface, channel lamp interface, net gape interface, socket electricity are connected.

Further, the shell comprises a lower shell and an upper cover body, and the upper cover body is arranged above the lower shell.

Further, control panel includes panel, control circuit board, control switch installation position, digital display screen installation position, single channel pilot lamp, handle, the panel both sides are equipped with the handle, be equipped with a plurality of louvres on the panel, the panel inside wall is equipped with control circuit board, the panel left side is equipped with control switch installation position, be equipped with control switch in the control switch installation position, control switch installation position one side is equipped with digital display screen installation position, be equipped with digital display screen in the digital display screen installation position, digital display screen installation position one side is equipped with a plurality of single channel pilot lamp, control circuit board with control switch, digital display screen, single channel pilot lamp electricity are connected.

Further, the energy-saving inverter device comprises an energy-saving inverter shell, an energy-saving inverter fan, an energy-saving inverter indicator lamp and energy-saving inverter binding posts, wherein the energy-saving inverter is arranged in the energy-saving inverter shell, the energy-saving inverter fan is arranged at the front end of the energy-saving inverter shell, the energy-saving inverter indicator lamp is arranged on one side of the energy-saving inverter fan, and the plurality of energy-saving inverter binding posts are arranged at the rear end of the energy-saving inverter shell.

Furthermore, the unit drawer structure comprises a drawer support, a switching battery test drawer and a tank chain wiring channel, wherein the switching battery test drawer is arranged on the drawer support, and the tank chain wiring channel is arranged between the drawer support and the switching battery test drawer;

the drawer support comprises a first fixing plate, a second fixing plate and a transverse plate, the transverse plate is arranged between the first fixing plate and the second fixing plate, sliding blocks are arranged on the outer side surfaces of the first fixing plate and the second fixing plate, the sliding blocks are mounted on sliding rails, the drawer support can move back and forth on the sliding rails, and sliding grooves are formed in the inner side walls of the first fixing plate and the second fixing plate;

the adapter battery test drawer comprises a first adapter battery fixing plate, a second adapter battery fixing plate, an adapter battery mounting plate and a multi-channel adapter battery indicator lamp, wherein slide rails are arranged on the outer sides of the first adapter battery fixing plate and the second adapter battery fixing plate, the slide rails on the outer sides of the first adapter battery fixing plate and the second adapter battery fixing plate are positioned in slide grooves in the inner side walls of the first fixing plate and the second fixing plate, the adapter battery test drawer can move back and forth in the slide grooves, the adapter battery mounting plate is arranged at the rear ends of the first adapter battery fixing plate and the second adapter battery fixing plate, a plurality of multi-channel adapter terminals are arranged on the adapter battery mounting plate, a plurality of multi-channel adapter battery indicator lamps are arranged at the front ends of the first adapter battery fixing plate and the second adapter battery fixing plate, one end of a tank chain routing channel is connected with the transverse plate, the tank chain is walked the line passageway other end with the switching battery mounting panel is connected, the corresponding department of installation tank chain on the diaphragm is equipped with the incoming line, the corresponding department of installation tank chain on the switching battery mounting panel is equipped with the outlet.

Furthermore, the distribution controller comprises a distribution control panel and a plurality of air switches, wherein the distribution control panel is provided with the plurality of air switches.

The beneficial effects of the utility model reside in that:

(1) the intelligent battery testing device has the advantages of simple structure, multiple functions, simple operation, attractive and elegant appearance, production cost reduction and battery testing time saving;

(2) the multi-layer detachable cabinet structure in the intelligent battery testing device can be used for simultaneously testing a large batch of batteries, and the problem that the batteries with multiple specifications and a large batch cannot be tested by single equipment in the conventional battery testing process is solved;

(3) the intelligent battery testing device is provided with a multi-channel power supply testing system, the multi-channel power supply testing system can simultaneously detect a plurality of batteries, the switching terminals of all channels are independent, one channel correspondingly detects one battery, when the detection is needed, a battery testing clamp is only required to be inserted into one switching terminal, the other end of the battery testing clamp is connected with the battery, the multi-channel unit case is ingenious in design, small in occupied space, high in circuit integration degree, high in heat dissipation efficiency and flexible in application scene;

(4) the intelligent battery testing device is also provided with a diversified unit drawer structure which is combined with the actual operation of a human body; the battery to be tested can be hidden in the transfer battery test drawer for testing through the diversified unit drawer structure, so that a worker is prevented from touching a test part, the battery is horizontally fixed on the drawer, the battery can be ensured to be in a flat state when the battery is tested, and the test efficiency and precision are improved;

(5) be equipped with the tank chain between drawer support and the switching battery test drawer and walk the line passageway, the line passageway can very big degree improve walk the line effect for the tank chain, and the line passageway structure is walked to the tank chain has motion characteristic, walks the line passageway relative motion through the tank chain between drawer support and the switching battery test drawer, realizes the motion of cable, avoids the cable to receive destruction because of external motion, plays the effect of protection cable.

[ description of the drawings ]

FIG. 1 is a schematic structural view of the intelligent battery testing device of the present invention;

fig. 2 is a schematic view of the front view structure of the intelligent battery testing device of the present invention;

FIG. 3 is a structural diagram of the drawer structure of the opening unit of the intelligent battery testing device of the present invention;

FIG. 4 is a schematic structural view of the multi-channel power supply testing system of the present invention;

FIG. 5 is a schematic diagram of the explosion structure of the multi-channel power supply testing system of the present invention;

FIG. 6 is a schematic structural view of the unit drawer of the present invention;

FIG. 7 is a schematic view of the testing drawer structure of the battery with the unit drawer structure opened and connected;

reference numerals: 1. a detachable cabinet; 11. a base plate; 110. a universal wheel; 12. a support beam; 120. a first support beam; 121. a second bracket beam; 122. a third support beam; 123. a connecting member; 124. a side panel; 13. a top cover; 2. a multi-channel power supply test system; 201. a housing; 2010. a lower housing; 2011. an upper cover body; 202. mounting a plate; 203. a control switch; 204. a digital display screen; 205. a control panel; 2050. a panel; 2051. a control circuit board; 2052. controlling a switch mounting position; 2053. a digital display screen mounting position; 2054. a single channel indicator light; 2055. heat dissipation holes; 2056. a handle; 206. an energy-saving inverter device; 2060. an energy-saving inverter housing; 2061. an energy-saving inverter; 2062. an energy-saving inverter fan; 2063. an energy-saving inverter indicator light; 2064. a binding post of the energy-saving inverter; 207. a temperature/communication board; 208. a transformer; 209. a fan module; 210. XWJ control panels; 211. a voltage current terminal interface; 212. a temperature interface; 213. a communication interface; 214. a channel light interface; 215. a network port interface; 216. a socket; 3. a unit drawer structure; 31. a drawer support; 310. a first fixing plate; 311. a second fixing plate; 312. a transverse plate; 313. a slider; 314. a chute; 32. switching the battery test drawer; 320. a first transfer battery fixing plate; 321. a second adapter battery fixing plate; 322. switching the battery mounting plate; 323. a multi-channel switching battery indicator lamp; 324. a slide rail; 325. a multi-channel switching terminal; 33. a tank chain routing channel; 4. a power distribution controller; 41. a power distribution control panel; 42. an air switch.

[ detailed description ] embodiments

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, and fig. 7, an intelligent battery testing device includes a detachable cabinet 1, a multi-channel power supply testing system 2, unit drawer structures 3, and a power distribution controller 4, wherein the detachable cabinet 1 is integrally combined with the multi-channel power supply testing system 2 in multiple layers at the upper and lower positions, the unit drawer structures 3 in multiple layers are arranged at the middle position of the detachable cabinet 1, and the independent power distribution controller 4 is arranged at the top layer of the detachable cabinet 1.

Preferably, the detachable cabinet 1 comprises a bottom plate 11, a support beam 12 and a top cover 13, the bottom plate 11 is provided with a plurality of detachable support beams 12, the top of each support beam 12 is provided with the top cover 13, the upper part and the lower part of each support beam 12 are provided with power supply test installation positions, each power supply test installation position is provided with a plurality of detachable multichannel power supply test systems 2, the middle of each support beam is provided with a position for installing a unit drawer, each unit drawer installation position is provided with a plurality of detachable unit drawer structures 3, the top layer of each support beam is provided with a position for installing a power distribution control installation position, and each power distribution control installation position is provided with a power distribution controller 4.

Preferably, the support beam 12 includes a first support beam 120, a second support beam 121, a third support beam 122, a fourth support beam, a connecting member 123, and a side panel 124, the first support beam 120 is detachably connected to the second support beam 121 through the connecting member 123, the third support beam 122 is also detachably connected to the fourth support beam through the connecting member 123, the detachable side panel 124 is disposed on the outer side surface between the first support beam 120 and the second support beam 121, the detachable side panel 124 is disposed on the outer side surface between the third support beam 122 and the fourth support beam, and the connecting member 123 is provided with a slide rail.

Preferably, a plurality of universal wheels 110 are arranged at the bottom of the bottom plate 11.

Preferably, the multichannel power testing system 2 includes a housing 201, a mounting plate 202, a control switch 203, a digital display screen 204, a control panel 205, an energy-saving inverter device 206, a temperature/communication board 207, a transformer 208, a fan module 209, an XWJ control board 210, a voltage/current terminal interface 211, a temperature interface 212, a communication interface 213, a channel lamp interface 214, a network interface 215, and a socket 216, the control panel 205 is disposed on the front surface of the housing 201, the control switch 203 is disposed on the control panel 205, the digital display screen 204 is disposed on one side of the control switch 203, the mounting plate 202 is disposed inside the housing 201, the energy-saving inverter device 206 is disposed on the mounting plate 202, the temperature/communication board 207 is disposed on one side of the energy-saving inverter device 206, the transformer 208 is disposed on one side of the temperature/communication board 207, and a plurality of fan modules 209 are disposed in front of the temperature/communication board 207, the front of the fan module 209 is provided with a plurality of XWJ control boards 210, the back of the casing 201 is provided with a plurality of voltage and current terminal interfaces 211, a temperature interface 212 is arranged above the voltage and current terminal interfaces 211, a communication interface 213 is arranged on one side of the voltage and current terminal interfaces 211, a channel lamp interface 214 is arranged on one side of the communication interface 213, a network interface 215 is arranged on one side of the channel lamp interface 214, a socket 216 is arranged on one side of the network interface 215, and the control switch 203 is electrically connected with the digital display screen 204, the energy-saving inverter device 206, the temperature/communication board 207, the transformer 208, the fan module 209, the voltage and current terminal interfaces 211, the temperature interface 212, the communication interface 213, the channel lamp interface 214, the network interface 215 and the socket 216.

Preferably, the housing 201 includes a lower housing 2010 and an upper cover 2011, and the upper cover 2011 is disposed above the lower housing 2010.

Preferably, the control panel 205 includes a panel 2050, a control circuit board 2051, a control switch installation position 2052, a digital display screen installation position 2053, a single-channel indicator light 2054, heat dissipation holes 2055, and a handle 2056, the handles 2056 are disposed on two sides of the panel 2050, a plurality of heat dissipation holes 2055 are disposed on the panel 2050, the control circuit board 2051 is disposed on the inner side wall of the panel 2050, the control switch installation position 2052 is disposed on the left side of the panel 2050, a control switch 203 is disposed in the control switch installation position 2052, the digital display screen installation position 2053 is disposed on one side of the control switch installation position 2052, a digital display screen 204 is disposed in the digital display screen installation position 2053, a plurality of single-channel indicator lights 2054 are disposed on one side of the digital display screen installation position 2053, and the control circuit board 2051 is electrically connected with the control switch 203, the digital display screen 204, and the single-channel indicator light 2054.

Preferably, the energy-saving inverter device 206 includes an energy-saving inverter housing 2060, an energy-saving inverter 2061, an energy-saving inverter fan 2062, an energy-saving inverter indicator light 2063, and an energy-saving inverter terminal 2064, wherein an energy-saving inverter 2061 is disposed in the energy-saving inverter housing 2060, the energy-saving inverter fan 2062 is disposed at the front end of the energy-saving inverter housing 2060, the energy-saving inverter indicator light 2063 is disposed at one side of the energy-saving inverter fan 2062, and a plurality of energy-saving inverter terminals 2064 are disposed at the rear end of the energy-saving inverter housing 206.

Preferably, the unit drawer structure 3 includes a drawer support 31, a transfer battery test drawer 32, and a tank chain routing channel 33, where the transfer battery test drawer 32 is disposed on the drawer support 31, and the tank chain routing channel 33 is disposed between the drawer support 31 and the transfer battery test drawer 32;

the drawer support 31 comprises a first fixing plate 310, a second fixing plate 311 and a transverse plate 312, the transverse plate 312 is arranged between the first fixing plate 310 and the second fixing plate 311, sliding blocks 313 are arranged on the outer side surfaces of the first fixing plate 310 and the second fixing plate 311, the sliding blocks 313 are mounted on sliding rails, the drawer support 31 can move back and forth on the sliding rails, and sliding grooves 314 are formed in the inner side walls of the first fixing plate 310 and the second fixing plate 311;

the adapter battery test drawer 32 comprises a first adapter battery fixing plate 320, a second adapter battery fixing plate 321, an adapter battery mounting plate 322 and a multi-channel adapter battery indicator lamp 323, wherein slide rails 324 are arranged on the outer sides of the first adapter battery fixing plate 320 and the second adapter battery fixing plate 321, the slide rails 324 on the outer sides of the first adapter battery fixing plate 320 and the second adapter battery fixing plate 324 are positioned in sliding grooves 314 on the inner side walls of the first fixing plate 310 and the second fixing plate 311, the adapter battery test drawer 32 can move back and forth in the sliding grooves 314, the adapter battery mounting plate 322 is arranged at the rear ends of the first adapter battery fixing plate 320 and the second adapter battery fixing plate 321, a plurality of multi-channel adapter terminals 325 are arranged on the adapter battery mounting plate 322, and a plurality of multi-channel adapter battery indicator lamps 323 are arranged at the front ends of the first adapter battery fixing plate 320 and the second adapter battery fixing plate 324, one end of the tank chain wiring channel 33 is connected with the horizontal plate 312, and the other end of the tank chain wiring channel 33 is connected with the transfer battery mounting plate 322;

the corresponding place of installing tank chain wiring channel on diaphragm 312 is equipped with the incoming line, the corresponding place of adapter battery mounting panel 322 installation tank chain wiring channel 33 is equipped with the outlet.

Preferably, the distribution controller 4 includes a distribution control panel 41 and air switches 42, and a plurality of air switches 42 are disposed on the distribution control panel 41.

Appropriate changes and modifications to the embodiments described above will become apparent to those skilled in the art from the disclosure and teachings of the foregoing description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. An intelligent battery test equipment which characterized in that: the multi-channel power supply testing system comprises a detachable cabinet, a multi-channel power supply testing system, unit drawer structures and a power distribution controller, wherein the upper part and the lower part of the whole detachable cabinet are combined by adopting a multi-layer multi-channel power supply testing system, the middle layer of the detachable cabinet is provided with the multi-layer unit drawer structures, and the top layer of the detachable cabinet is provided with the independent power distribution controller.

2. The intelligent battery test apparatus of claim 1, wherein: the detachable cabinet comprises a bottom plate, a support beam and a top cover, wherein the bottom plate is provided with a plurality of detachable support beams, the top of each support beam is provided with the top cover, the upper part and the lower part of each support beam are provided with power supply test installation positions, the power supply test installation positions are provided with a plurality of detachable multichannel power supply test systems, the middle of each support beam is provided with a position for installing a unit drawer, the unit drawer installation positions are provided with a plurality of detachable unit drawer structures, the top layer of each support beam is provided with a position for installing power distribution control, and the power distribution control installation positions are provided with power distribution controllers.

3. The intelligent battery test apparatus of claim 2, wherein: the support beam comprises a first support beam, a second support beam, a third support beam, a fourth support beam, a connecting piece and a side panel, the first support beam is detachably connected with the second support beam through the connecting piece, the third support beam is detachably connected with the fourth support beam through the connecting piece, the detachable side panel is arranged on the outer side face between the first support beam and the second support beam, the detachable side panel is arranged on the outer side face between the third support beam and the fourth support beam, and a sliding rail is arranged on the connecting piece.

4. The intelligent battery test apparatus of claim 2, wherein: and a plurality of universal wheels are arranged at the bottom of the bottom plate.

5. The intelligent battery test apparatus of claim 1, wherein: the multichannel power supply testing system comprises a shell, a mounting plate, a control switch, a digital display screen, a control panel, an energy-saving inverter device, a temperature/communication plate, a transformer, a fan module, an XWJ control plate, a voltage and current terminal interface, a temperature interface, a communication interface, a channel lamp interface, a network interface and a socket, wherein the front surface of the shell is provided with the control panel, the control panel is provided with the control switch, one side of the control switch is provided with the digital display screen, the mounting plate is arranged in the shell, the energy-saving inverter device is arranged on the mounting plate, one side of the energy-saving inverter device is provided with the temperature/communication plate, one side of the temperature/communication plate is provided with the transformer, the front part of the temperature/communication plate is provided with a plurality of fan modules, the front part of the fan modules is provided with a plurality of XWJ control plates, and the back surface of the shell is provided with a plurality of voltage and current terminal interfaces, the utility model discloses a temperature control device, including voltage and current terminal interface, communication interface, control switch, digital display screen, energy-conserving inverter device, temperature/communication board, transformer, fan module, voltage and current terminal interface, temperature interface, communication interface, channel lamp interface, net gape interface, socket electricity are connected.

6. The intelligent battery test apparatus of claim 5, wherein: the shell comprises a lower shell and an upper cover body, wherein the upper cover body is arranged above the lower shell.

7. The intelligent battery test apparatus of claim 5, wherein: control panel includes panel, control circuit board, control switch installation position, digital display screen installation position, single channel pilot lamp, handle, the panel both sides are equipped with the handle, be equipped with a plurality of louvres on the panel, the panel inside wall is equipped with control circuit board, the panel left side is equipped with control switch installation position, be equipped with control switch in the control switch installation position, control switch installation position one side is equipped with digital display screen installation position, be equipped with digital display screen in the digital display screen installation position, digital display screen installation position one side is equipped with a plurality of single channel pilot lamp, control circuit board with control switch, digital display screen, single channel pilot lamp electricity are connected.

8. The intelligent battery test apparatus of claim 5, wherein: the energy-saving inverter device comprises an energy-saving inverter shell, an energy-saving inverter fan, an energy-saving inverter indicator light and energy-saving inverter binding posts, wherein the energy-saving inverter is arranged in the energy-saving inverter shell, the energy-saving inverter fan is arranged at the front end of the energy-saving inverter shell, the energy-saving inverter indicator light is arranged on one side of the energy-saving inverter fan, and the plurality of energy-saving inverter binding posts are arranged at the rear end of the energy-saving inverter shell.

9. The intelligent battery test apparatus of claim 1, wherein: the unit drawer structure comprises a drawer support, a switching battery test drawer and a tank chain wiring channel, wherein the switching battery test drawer is arranged on the drawer support, and the tank chain wiring channel is arranged between the drawer support and the switching battery test drawer;

the drawer support comprises a first fixing plate, a second fixing plate and a transverse plate, the transverse plate is arranged between the first fixing plate and the second fixing plate, sliding blocks are arranged on the outer side surfaces of the first fixing plate and the second fixing plate, the sliding blocks are mounted on sliding rails, the drawer support can move back and forth on the sliding rails, and sliding grooves are formed in the inner side walls of the first fixing plate and the second fixing plate;

the switching battery test drawer comprises a first switching battery fixing plate, a second switching battery fixing plate, a switching battery mounting plate and a multi-channel switching battery indicator lamp, wherein slide rails are arranged on the outer sides of the first switching battery fixing plate and the second switching battery fixing plate, the slide rails on the outer sides of the first switching battery fixing plate and the second switching battery fixing plate are positioned in slide grooves in the inner side walls of the first fixing plate and the second fixing plate, the switching battery test drawer can move back and forth in the slide grooves, the switching battery mounting plate is arranged at the rear ends of the first switching battery fixing plate and the second switching battery fixing plate, a plurality of multi-channel switching terminals are arranged on the switching battery mounting plate, a plurality of multi-channel switching battery indicator lamps are arranged at the front ends of the first switching battery fixing plate and the second switching battery fixing plate, and one end of a wiring channel is connected with the transverse plate, the wiring channel other end with the switching battery mounting panel is connected, the corresponding department of installation tank chain wiring channel on the diaphragm is equipped with the incoming line, the corresponding department of installation tank chain wiring channel on the switching battery mounting panel is equipped with the outlet.

10. The intelligent battery test apparatus of claim 1, wherein: the power distribution controller comprises a power distribution control panel and a plurality of air switches, wherein the plurality of air switches are arranged on the power distribution control panel.

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