CN204697079U - The digital received and sent device that a kind of Internet of Things automatic fault detects - Google Patents

Abstract

The utility model discloses the digital received and sent device that a kind of Internet of Things automatic fault detects, the inside of data acquisition device mounting panel is separately installed with processor, headend, signal picker, power configuration device, batteries, commutation circuit plate, battery charger, radiator, wire spool, power configuration device by wire respectively with the input of commutation circuit plate, battery charger connects, battery charger is connected with batteries by wire, the bottom of fault detection device mounting panel is separately installed with power output interface, detect interface, fault detection device mounting panel is separately installed with alarm, sense switch, display screen, power supply is separately installed with in fault detection device mounting panel, voltage regulator, the utility model can ensure data acquisition not power-off, makes data energy normal acquisition, is convenient to detect internet of things equipment and components and parts thereof.

Description

The digital received and sent device that a kind of Internet of Things automatic fault detects

Technical field:

The utility model relates to the digital received and sent device that a kind of Internet of Things automatic fault detects, and belongs to technology of Internet of things field.

Background technology:

Internet of Things (Internet of Things, abbreviation IOT) be one based on information carriers such as the Internet, conventional telecommunications nets, allow the network that interconnects of the row General Physics object implementatio8 that can be independently addressable.Internet of Things is generally wireless network, because the equipment around everyone can reach 1 thousand to five thousand, so Internet of Things comprises 500 million to an one gigabit object possibly, on Internet of Things, real object online can connect by applying electronic label by everyone, and Internet of Things can find out their particular location.Can machine, equipment, personnel be managed concentratedly, be controlled with central computer by Internet of Things, also can carry out remote control to household equipment, automobile, and location searching, the various application such as prevent article stolen.

Existing internet of things equipment kind is more, and components and parts are also many, can be difficult to detect, cause maintenance time long, inconvenient operation once one of them parts or a component damage.

Utility model content:

For the problems referred to above, the technical problems to be solved in the utility model is to provide the digital received and sent device that a kind of Internet of Things automatic fault detects.

The digital received and sent device that a kind of Internet of Things automatic fault of the present utility model detects, it comprises data acquisition device mounting panel, data receiver device mounting panel, processor, headend, signal picker, transducer, power configuration device, it also comprises batteries, commutation circuit plate, battery charger, radiator, wire spool, controller, battery, USB output interface, wireless receiver, power output interface, detect interface, power supply, voltage regulator, alarm, sense switch, display screen, fault detection device mounting panel, KM1-relay, the inside of described data acquisition device mounting panel is separately installed with processor, headend, signal picker, power configuration device, batteries, commutation circuit plate, battery charger, radiator, wire spool, described power configuration device by wire respectively with the input of commutation circuit plate, battery charger connects, and battery charger is connected with batteries by wire, and described batteries is connected by the input of wire with commutation circuit plate, the output of commutation circuit plate respectively with radiator, processor connects, described transducer is connected with signal picker, and the connecting line solderless wrapped connection of transducer is on wire spool, described signal picker is connected with the input of processor, the output of processor is connected with headend, and headend is connected with data receiver device mounting panel inside by fault detection device mounting panel, the bottom of fault detection device mounting panel is separately installed with power output interface, detect interface, difference installed rows alarm on fault detection device mounting panel, sense switch, display screen, power supply is separately installed with in fault detection device mounting panel, voltage regulator, power supply by wire respectively with voltage regulators inputs, one end of relay K M1 first couple of normally-closed contact KM1-1 connects, the output of voltage regulator is connected with power output interface by wire, display screen is connected with voltage regulator by data wire, the other end of relay K M1 first couple of normally-closed contact KM1-1 is connected with one end of sense switch by wire, the other end of sense switch is connected with alarm by wire, alarm is connected by one end of wire and relay K M1 second couple of normally-closed contact KM1-2, the other end of relay K M1 second couple of normally-closed contact KM1-2 is connected by wire one end with relay K M1 coil, the other end of relay K M1 coil is connected with detection interface by wire.

Further, described data receiver device mounting panel inside is separately installed with controller, battery, USB output interface, wireless receiver, wireless receiver is connected with controller, controller is connected with battery, USB output interface respectively, described controller is the controller with storage device, and described alarm is audible-visual annunciator.

The beneficial effects of the utility model are: can ensure data acquisition not power-off, make data energy normal acquisition, and transducer is convenient to mobile, convenient fixing, and be convenient to detect internet of things equipment and components and parts thereof, shorten maintenance time, easy and simple to handle, easy to detect, structure is simple.

Accompanying drawing illustrates:

For ease of illustrating, the utility model is described in detail by following concrete enforcement and accompanying drawing.

Fig. 1 is the utility model structural representation.

In figure: 1-data acquisition device mounting panel; 2-data receiver device mounting panel; 3-processor; 4-headend; 5-signal picker; 6-transducer; 7-power configuration device; 8-batteries; 9-commutation circuit plate; 10-battery charger; 11-radiator; 12-wire spool; 13-controller; 14-battery; 15-USB output interface; 16-wireless receiver; 17-power output interface; 18-detects interface; 19-power supply; 20-voltage regulator; 21-alarm; 22-sense switch; 23-display screen; 24-fault detection device mounting panel; KM1-relay.

Embodiment:

For making the purpose of this utility model, technical scheme and advantage clearly understand, below by the specific embodiment shown in accompanying drawing, the utility model is described.But should be appreciated that, these describe just exemplary, and do not really want to limit scope of the present utility model.In addition, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring concept of the present utility model.

As shown in Figure 1, this embodiment by the following technical solutions: it comprises data acquisition device mounting panel 1, data receiver device mounting panel 2, processor 3, headend 4, signal picker 5, transducer 6, power configuration device 7, it also comprises batteries 8, commutation circuit plate 9, battery charger 10, radiator 11, wire spool 12, controller 13, battery 14, USB output interface 15, wireless receiver 16, power output interface 17, detect interface 18, power supply 19, voltage regulator 20, alarm 21, sense switch 22, display screen 23, fault detection device mounting panel 24, KM1-relay, the inside installed rows processor 3 respectively of described data acquisition device mounting panel 1, headend 4, signal picker 5, power configuration device 7, batteries 8, commutation circuit plate 9, battery charger 10, radiator 11, wire spool 12, described power configuration device 7 by wire respectively with the input of commutation circuit plate 9, battery charger 10 connects, and battery charger 10 is connected with batteries 8 by wire, and described batteries 8 is connected by the input of wire with commutation circuit plate 9, the output of commutation circuit plate 9 respectively with radiator 11, processor 3 connects, described transducer 6 is connected with signal picker 5, and the connecting line solderless wrapped connection of transducer 6 is on wire spool 12, described signal picker 5 is connected with the input of processor 3, the output of processor 3 is connected with headend 4, and headend 4 is connected with data receiver device mounting panel 2 inside by fault detection device mounting panel 24, the bottom of fault detection device mounting panel 24 is separately installed with power output interface 17, detect interface 18, fault detection device mounting panel 24 is separately installed with alarm 21, sense switch 22, display screen 23, power supply 19 is separately installed with in fault detection device mounting panel 24, voltage regulator 20, power supply 19 by wire respectively with voltage regulator 20 input, one end of relay K M1 first couple of normally-closed contact KM1-1 connects, the output of voltage regulator 20 is connected with power output interface 17 by wire, display screen 23 is connected with voltage regulator 20 by data wire, the other end of relay K M1 first couple of normally-closed contact KM1-1 is connected by wire one end with sense switch 22, the other end of sense switch 22 is connected with alarm 21 by wire, alarm 21 is connected by one end of wire and relay K M1 second couple of normally-closed contact KM1-2, the other end of relay K M1 second couple of normally-closed contact KM1-2 is connected by wire one end with relay K M1 coil, the other end of relay K M1 coil is connected with detection interface 18 by wire.

Further, described data receiver device mounting panel 2 inside is separately installed with controller 13, battery 14, USB output interface 15, wireless receiver 16, wireless receiver 16 is connected with controller 13, controller 13 is connected with battery 14, USB output interface 15 respectively, described controller 13 is the controller with storage device, and described alarm 21 is audible-visual annunciator.

The operation principle of this embodiment is: adopt power configuration device 7 with batteries 8 for data acquisition mechanism powers, powered by power configuration device 7 when there being electricity, pass through battery charger 10 is charge in batteries simultaneously, powered by storage battery 8 when power is off, between them, detect switching by commutation circuit plate 9; When needing parts or the components and parts detecting internet of things equipment, by data wire, the power supply of power output interface 17 with detected parts is connected, the output of detected parts is being connected with detection interface 18 by data wire, sense switch 22 is closed, when detected parts are intact, detect interface 18 can be energized, namely relay K M1 coil obtains electric, first couple of normally-closed contact KM1-1 and the second couple of normally-closed contact KM1-2 of relay K M1 disconnects, alarm 21 no power, on the contrary then alarm 21 powers alarm.

More than show and describe general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and specification just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (2)

1. a digital received and sent device for Internet of Things automatic fault detection, is characterized in that: it comprises data acquisition device mounting panel, data receiver device mounting panel, processor, headend, signal picker, transducer, power configuration device, it also comprises batteries, commutation circuit plate, battery charger, radiator, wire spool, controller, battery, USB output interface, wireless receiver, power output interface, detect interface, power supply, voltage regulator, alarm, sense switch, display screen, fault detection device mounting panel, KM1-relay, the inside of described data acquisition device mounting panel is separately installed with processor, headend, signal picker, power configuration device, batteries, commutation circuit plate, battery charger, radiator, wire spool, described power configuration device by wire respectively with the input of commutation circuit plate, battery charger connects, and battery charger is connected with batteries by wire, and described batteries is connected by the input of wire with commutation circuit plate, the output of commutation circuit plate respectively with radiator, processor connects, described transducer is connected with signal picker, and the connecting line solderless wrapped connection of transducer is on wire spool, described signal picker is connected with the input of processor, the output of processor is connected with headend, and headend is connected with data receiver device mounting panel inside by fault detection device mounting panel, the bottom of fault detection device mounting panel is separately installed with power output interface, detect interface, fault detection device mounting panel is separately installed with alarm, sense switch, display screen, power supply is separately installed with in fault detection device mounting panel, voltage regulator, power supply by wire respectively with voltage regulators inputs, one end of relay K M1 first couple of normally-closed contact KM1-1 connects, the output of voltage regulator is connected with power output interface by wire, display screen is connected with voltage regulator by data wire, the other end of relay K M1 first couple of normally-closed contact KM1-1 is connected with one end of sense switch by wire, the other end of sense switch is connected with alarm by wire, alarm is connected by one end of wire and relay K M1 second couple of normally-closed contact KM1-2, the other end of relay K M1 second couple of normally-closed contact KM1-2 is connected by wire one end with relay K M1 coil, the other end of relay K M1 coil is connected with detection interface by wire.

2. the digital received and sent device of a kind of Internet of Things automatic fault detection according to claim 1, it is characterized in that: described data receiver device mounting panel inside is separately installed with controller, battery, USB output interface, wireless receiver, wireless receiver is connected with controller, controller is connected with battery, USB output interface respectively, described controller is the controller with storage device, and described alarm is audible-visual annunciator.