CN203102699U - Comprehensive experimental box for Internet of things - Google Patents

Abstract

The utility model discloses a comprehensive experimental box for an Internet of things, and relates to the technical field of Internet of things. The comprehensive experimental box comprises a power supply circuit, a microprocessor, an alternating current power supply conversion circuit, a direct current power supply conversion circuit, an awakening circuit, a battery protective circuit, a battery charging circuit and a battery. The power supply circuit is respectively connected with one end of the alternating current power supply conversion circuit, one end of the awakening circuit, one end of the battery charging circuit and the battery. The microprocessor is connected with the other end of the alternating current power supply conversion circuit, the other end of the awakening circuit, one end of the direct current power supply conversion circuit and one end of the battery protective circuit respectively. The other end of the battery charging circuit and the other end of the battery protective circuit are connected with the battery. An active radio frequency reader-writer, a passive radio frequency reader-writer and a wireless sensor network gateway are further connected between the power supply circuit and the microprocessor. According to the box provided by the utility model, performances or functions of the Internet of things are tested and experimented, so that manpower, material resources and time consumed are greatly reduced, the test and experimental cost is lowered, and the time for application of the Internet of things is shortened.

Description

The Internet of Things comprehensive experiment box

Technical field

The utility model relates to the technology of Internet of things field, is specifically related to a kind of Internet of Things comprehensive experiment box.

Background technology

Internet of Things is the important component part of generation information technology, along with Internet development, people are increasing to the degree of dependence of network, almost all trades and professions are all being used network, the raising of and technology more and more higher to the requirement of Internet of things system along with people, the function of a lot of Internet of things system is intelligence more and more, the equipment of total system is also more and more, as radio-frequency (RF) identification, infrared inductor, GPS, laser scanner etc., Internet of things system all needs its every function and equipment performance are carried out test experiments before coming into operation, but current a lot of test experiments equipment all can only carry out the test of individual event, the test experiments equipment of minority also only can be tested two or three, when running into comparatively complicated Internet of things system, once test often needs to employ several or ten several testing apparatuss completely, therefore only just need expend great amount of manpower aspect the Internet of things system performance test, material resources and time, postponed the time that the Internet of things system input is used.

Summary of the invention

The purpose of this utility model provides a kind of Internet of Things comprehensive experiment box, it can carry out test experiments to a plurality of performances or the function of Internet of things system, as passive radio frequency identification, active radio-frequency (RF) identification, Temperature Humidity Sensor, infrared sensor, optical sensor, PLC, WiFi and gate control system or the like.

In order to solve the existing problem of background technology, the utility model is by the following technical solutions: its bag power circuit 1, microprocessor 2, AC power change-over circuit 3, direct-current power supply converting circuit 4, wake-up circuit 5, battery protecting circuit 6, battery charger 7, battery 8;

Described power circuit 1 is connected with AC power change-over circuit 3 one ends, wake-up circuit 5 one ends, battery charger 7 one ends, battery 8 respectively; described microprocessor 2 is connected with AC power change-over circuit 3 other ends, wake-up circuit 5 other ends, direct-current power supply converting circuit 4 one ends, battery protecting circuit 6 one ends respectively; described battery charger 7 other ends, battery protecting circuit 6 other ends are connected with battery 8, also are connected with active frequency read/write, passive RF read write line, wireless sense network gateway between described power circuit 1 and the microprocessor 2.

Described wireless sense network gateway is connected with humiture subnet pass, illuminance subnet pass, infrared subnet pass, blower fan subnet pass.

It can carry out test experiments to a plurality of performances such as the passive radio frequency identification of Internet of things system, active radio-frequency (RF) identification, Temperature Humidity Sensor, infrared sensor, optical sensor, PLC, WiFi and gate control system or function the utility model, when the Internet of things system of complexity is tested, only need this test experiments equipment just can finish, therefore significantly reduced and needed consumption manpower and time, thereby reduced the test experiments cost, shortened the time that the Internet of things system input is used.

Description of drawings

Fig. 1 is a structural representation of the present utility model,

Embodiment

Referring to Fig. 1, this embodiment by the following technical solutions: its bag power circuit 1, microprocessor 2, AC power change-over circuit 3, direct-current power supply converting circuit 4, wake-up circuit 5, battery protecting circuit 6, battery charger 7, battery 8;

Described power circuit 1 is connected with AC power change-over circuit 3 one ends, wake-up circuit 5 one ends, battery charger 7 one ends, battery 8 respectively; described microprocessor 2 is connected with AC power change-over circuit 3 other ends, wake-up circuit 5 other ends, direct-current power supply converting circuit 4 one ends, battery protecting circuit 6 one ends respectively; described battery charger 7 other ends, battery protecting circuit 6 other ends are connected with battery 8, also are connected with active frequency read/write, passive RF read write line, wireless sense network gateway between described power circuit 1 and the microprocessor 2.

When needs carry out test experiments to passive radio frequency identification, earlier passive RF read write line power switch is in the OFF state, tested object is linked on the passive RF read write line then, and then passive RF read write line power switch toggled it to the ON state, click RFID at last and import rfid card on display terminal and number get final product, relevant test data can show on display terminal at last.

When needs are tested Temperature Humidity Sensor, earlier the humiture subnet is closed power switch and be in the OFF state, then tested object being linked into the humiture subnet shuts, and then the humiture subnet is closed power switch toggle it to the ON state, click humiture at last and get final product on display terminal, last relevant test data can show on display terminal.

When needs are tested illuminance sensor, earlier the illuminance subnet is closed power switch and be in the OFF state, then tested object being linked into the illuminance subnet shuts, and then the illuminance subnet is closed power switch toggle it to the ON state, click illuminance at last and get final product on display terminal, last relevant test data can show on display terminal.

It can carry out test experiments to a plurality of performances such as the passive radio frequency identification of Internet of things system, active radio-frequency (RF) identification, Temperature Humidity Sensor, infrared sensor, optical sensor, PLC, WiFi and gate control system or function the utility model, when the Internet of things system of complexity is tested, only need this test experiments equipment just can finish, therefore significantly reduced and needed consumption manpower and time, thereby reduced the test experiments cost, shortened the time that the Internet of things system input is used.

Claims (2)

1. Internet of Things comprehensive experiment box, it is characterized in that its bag power circuit (1), microprocessor (2), AC power change-over circuit (3), direct-current power supply converting circuit (4), wake-up circuit (5), battery protecting circuit (6), battery charger (7), battery (8);

Described power circuit (1) respectively with AC power change-over circuit (3) one ends; wake-up circuit (5) one ends; battery charger (7) one ends; battery (8) connects; described microprocessor (2) respectively with AC power change-over circuit (3) other end; wake-up circuit (5) other end; direct-current power supply converting circuit (4) one ends; battery protecting circuit (6) one ends connect; described battery charger (7) other end; battery protecting circuit (6) other end is connected with battery (8), also is connected with active frequency read/write between described power circuit (1) and the microprocessor (2); the passive RF read write line; the wireless sense network gateway.

2. Internet of Things comprehensive experiment box according to claim 1 is characterized in that, described wireless sense network gateway is connected with humiture subnet pass, illuminance subnet pass, infrared subnet pass, blower fan subnet pass.

Images