CN112684365A - Multi-channel power supply test system - Google Patents

Abstract

The invention provides a multichannel power supply testing system, which is applied to intelligent battery testing equipment and 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 multichannel power supply testing system has the beneficial effects that: the multi-channel power supply testing system can simultaneously detect a plurality of batteries, the interfaces of all channels are independent, one channel correspondingly detects one battery, when the detection is needed, the battery testing clamp is inserted into one interface, and the other end of the battery testing clamp is connected with the battery; a fan module is arranged in the multichannel power supply testing system, and the internal circuit structure is radiated through a fan module structure; an energy-saving inverter device is arranged in the multi-channel power supply testing system, and the energy-saving inverter device has the functions of saving energy and reducing noise of equipment.

Description

Multi-channel power supply test system

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of battery detection, in particular to a multi-channel power supply testing system.

[ background of the invention ]

In the production process of the battery, the detection of the battery performance is an essential link. The electrical detection means of the battery generally comprises overcharge, overdischarge, external short circuit and forced discharge, and the detection indexes comprise internal resistance, maximum discharge current, constant current precision, battery capacity and the like. The detection method commonly used at present is that a meter pen of a manual handheld battery test instrument detects batteries one by one, the method has low efficiency, and phenomena of error detection and missing detection are easy to occur;

at present, the efficiency of battery detection equipment is low, the performance of a battery can only be detected by a single battery, and the detection of multiple batteries in parallel by multiple channels cannot be realized, so that the detection efficiency of the battery is reduced.

[ summary of the invention ]

The invention aims to solve the problems that the conventional battery detection equipment has low efficiency, can only detect the performance of a battery in a single time and cannot realize multi-channel parallel detection of a plurality of batteries, so that the detection efficiency of the batteries is reduced.

The invention is realized by the following technical scheme:

a multi-channel power supply testing system is applied to intelligent battery testing equipment and 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/current terminal interface, a temperature interface, a communication interface, a channel lamp interface, a net mouth 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 interior of the shell is provided with the mounting plate, the mounting plate is provided with the energy-saving inverter device, 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, the casing back is equipped with a plurality of voltage current terminal interface, voltage current terminal interface top is equipped with the temperature interface, voltage current terminal interface one side is equipped with the communication interface, communication interface one side is equipped with the passageway lamp interface, passageway lamp interface one side is equipped with the net gape interface, net gape interface one side is equipped with the socket, control switch with digital display screen, energy-conserving inverter device, temperature/communication board, transformer, fan module, voltage current terminal interface, temperature interface, communication interface, passageway 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.

Further, the transformer is annular in shape and the transformer is an AC transformer.

The invention has the beneficial effects that:

(1) the multi-channel power supply testing system is simple in structure, ingenious in design, small in occupied space, high in circuit integration degree, high in heat dissipation efficiency and flexible in application scene;

(2) the multi-channel power supply testing system can simultaneously detect a plurality of batteries, the interfaces of all channels are independent, one channel correspondingly detects one battery, when the detection is needed, the battery testing clamp is inserted into one interface, and the other end of the battery testing clamp is connected with the battery;

(3) a fan module is arranged in the multichannel power supply testing system, and the internal circuit structure is radiated through a fan module structure;

(4) an energy-saving inverter device is arranged in the multi-channel power supply testing system, and the energy-saving inverter device has the functions of saving energy and reducing noise of equipment.

[ description of the drawings ]

FIG. 1 is a schematic diagram of a front view structure of a multi-channel power testing system according to the present invention;

FIG. 2 is a schematic diagram of a rear view structure of the multi-channel power testing system of the present invention;

FIG. 3 is a schematic diagram of an exploded structure of the multi-channel power supply testing system of the present invention;

reference numerals: 1. a housing; 101. a lower housing; 102. an upper cover body; 2. mounting a plate; 3. a control switch; 4. a digital display screen; 5. a control panel; 51. a panel; 52. a control circuit board; 53. controlling a switch mounting position; 54. a digital display screen mounting position; 55. a single channel indicator light; 56. a handle; 57. heat dissipation holes; 6. an energy-saving inverter device; 61. an energy-saving inverter housing; 62. an energy-saving inverter; 63. an energy-saving inverter fan; 64. an energy-saving inverter indicator light; 65. a binding post of the energy-saving inverter; 7. a temperature/communication board; 8. a transformer; 9. a fan module; 10. XWJ control panels; 11. a voltage current terminal interface; 12. a temperature interface; 13. a communication interface; 14. a channel light interface; 15. a network port interface; 16. a socket is provided.

[ detailed description ] embodiments

The invention is further described with reference to the accompanying drawings and the detailed description:

as shown in fig. 1, 2 and 3, a multi-channel power testing system applied to an intelligent battery testing device includes a housing 1, a mounting plate 2, a control switch 3, a digital display 4, a control panel 5, an energy-saving inverter device 6, a temperature/communication plate 7, a transformer 8, a fan module 9, an XWJ control plate 10, a voltage/current terminal interface 11, a temperature interface 12, a communication interface 13, a channel lamp interface 14, a network interface 15 and a socket 16, wherein the front of the housing 1 is provided with the control panel 5, the control panel 5 is provided with the control switch 3, one side of the control switch 3 is provided with the digital display 4, the housing 1 is internally provided with the mounting plate 2, the mounting plate 2 is provided with the energy-saving inverter device 6, one side of the energy-saving inverter device 6 is provided with the temperature/communication plate 7, one side of the temperature/communication plate 7 is provided with the transformer, the utility model discloses a temperature/communication board 7 the place ahead is equipped with a plurality of fan module 9, fan module 9 the place ahead is equipped with a plurality of XWJ control panel 10, 1 back of casing is equipped with a plurality of voltage current terminal interface 11, voltage current terminal interface 11 top is equipped with temperature interface 12, voltage current terminal interface 11 one side is equipped with communication interface 13, communication interface 13 one side is equipped with passageway lamp interface 14, passageway lamp interface 14 one side is equipped with net gape interface 15, net gape interface 15 one side is equipped with socket 16, control switch 3 with digital display screen 4, energy-conserving inverter device 6, temperature/communication board 7, transformer 8, fan module 9, voltage current terminal interface 11, temperature interface 12, communication interface 13, passageway lamp interface 14, net gape interface 15, socket 16 electricity are connected.

Preferably, the housing 1 includes a lower housing 101 and an upper cover 102, and the upper cover 102 is disposed above the lower housing 101.

Preferably, control panel 5 includes panel 51, control circuit board 52, control switch installation position 53, digital display screen installation position 54, single channel pilot lamp 55, handle 56, louvre 57, the panel 51 both sides are equipped with handle 56, be equipped with a plurality of louvre 57 on the panel 51, the panel 51 inside wall is equipped with control circuit board 52, the panel 51 left side is equipped with control switch installation position 53, be equipped with control switch 3 in the control switch installation position 53, control switch installation position 53 one side is equipped with digital display screen installation position 54, be equipped with digital display screen 4 in the digital display screen installation position 54, digital display screen installation position 54 one side is equipped with a plurality of single channel pilot lamp 55, control circuit board 52 with control switch 3, digital display screen 4, single channel pilot lamp 55 electricity are connected.

Preferably, the energy-saving inverter device 6 includes an energy-saving inverter casing 61, an energy-saving inverter 62, an energy-saving inverter fan 63, an energy-saving inverter indicator lamp 64, and an energy-saving inverter terminal 65, wherein the energy-saving inverter 62 is disposed in the energy-saving inverter casing 61, the energy-saving inverter fan 63 is disposed at the front end of the energy-saving inverter casing 61, the energy-saving inverter indicator lamp 64 is disposed at one side of the energy-saving inverter fan 63, and the plurality of energy-saving inverter terminals 65 are disposed at the rear end of the energy-saving inverter casing.

Preferably, the transformer 8 is ring-shaped, and the transformer 8 is an AC transformer.

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 variations of the present invention should fall within the 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 (5)

1. The utility model provides a multichannel power test system, is applied to on intelligent battery test equipment which characterized in that: the intelligent control cabinet comprises a shell, a mounting plate, a control switch, a digital display screen, a control panel, an energy-saving inverter device, a temperature/communication board, a transformer, a fan module, an XWJ control board, a voltage/current terminal interface, a temperature interface, a communication interface, a channel lamp interface, a net 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, one side of the energy-saving inverter device is provided with the temperature/communication board, one side of the temperature/communication board is provided with the transformer, the front part of the temperature/communication board is provided with a plurality of fan modules, the front part of the fan modules, 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.

2. The multi-channel power supply test system of claim 1, wherein: the shell comprises a lower shell and an upper cover body, wherein the upper cover body is arranged above the lower shell.

3. The multi-channel power supply test system of claim 1, 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.

4. The multi-channel power supply test system of claim 1, 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.

5. The multi-channel power supply test system of claim 1, wherein: the transformer is annular in shape and is an AC transformer.

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