CN204992678U - Non -maintaining infrared detector - Google Patents

Abstract

The utility model relates to a non -maintaining infrared detector, the detector include the detector main part, the detector main part includes the shell, sets up the infrared sensor in the shell and sets up the infrared lens on the shell that this detector still includes: set up in the shell in chargeable call, be used for for detector power supply, set up in the shell on solar cell panel for become the electric energy in order to give with solar energy transformation detector power supply, set up in the shell on the USB interface that charges for through the USB charging wire in order to give detector power supply, set up in the shell in no heat input collect the converter for collect the no heat input in the space, and will wireless energy conversion become the electric energy in order to give detector power supply. Adopt the non -maintaining infrared detector of this kind of structure, can guarantee that infrared detector need not maintain the non -maintaining automatic power supply of realization at life in the time, simple structure, the range of application is extensive.

Description

Non-maintaining Infrared Detectors

Technical field

The utility model relates to detector field, particularly relates to intelligent security guard field, specifically refers to a kind of non-maintaining Infrared Detectors.

Background technology

Along with the development of society, Infrared Detectors range of application more and more light, in indoor public arena, outdoor enclosure wall, at a high speed along road, traffic cross-road is all provided with monitoring Infrared Detectors, to the accident also very large contribution of original work.

Infrared detector package operationally needs to consume electric energy, is generally to be connected with external power supply by Infrared Detectors by power line to provide working power to Infrared Detectors, or being provided with battery at Infrared Detectors powers.For the Infrared Detectors of indoor use, more convenient by wire connecting power, but be difficult to provide power source in outdoor, cause much inconvenience, use battery then to need to regularly replace battery, if changed not in time, Infrared Detectors is due to power-off, cannot work, cause leak to follow-up use.

Utility model content

The purpose of this utility model is the shortcoming overcoming above-mentioned prior art, provides a kind ofly to ensure that Infrared Detectors does not need to safeguard the non-maintaining Infrared Detectors realizing non-maintaining automatic power within the time in useful life.

To achieve these goals, non-maintaining Infrared Detectors of the present utility model has following formation:

This non-maintaining Infrared Detectors, described detector comprises detector body, described detector body comprises shell, the Infrared Lens being arranged at the infrared sensor in described shell and being arranged on described shell, its main feature is, described detector also comprises the rechargeable battery be arranged in described shell, be arranged at the solar panel on described shell, be arranged at the USB charging inlet on described shell, the wireless energy be arranged in described shell collects transducer, described solar panel, USB charging inlet and wireless energy are collected transducer and are all connected with described rechargeable battery.

Further, it is WIFI collection of energy transducer that described wireless energy collects transducer, is converted into electric energy with to the charging of described rechargeable battery in order to the WIFI microwaves in collection space.

Further, described infrared sensor is low-power-consumption infrared transducer.

Further, described rechargeable battery is lithium battery.

Further, described detector also comprises firm banking, and described detector body is arranged on described firm banking.

Further, described firm banking is fixed on band installation site by seamless glue or bolt.

Further, described shell is also provided with fixed part, described detector body is fixed on described firm banking by described fixed part.

Again further, described fixed part is magnet, hanging hole or seamless glue.Have employed the non-maintaining Infrared Detectors in this utility model, compared with prior art, there is following beneficial effect:

Non-maintaining Infrared Detectors of the present utility model, can ensure that Infrared Detectors does not need maintenance to realize non-maintaining automatic power within the time in useful life, and structure is simple, has wide range of applications.

Accompanying drawing explanation

Fig. 1 is the structural representation of the detector body of non-maintaining Infrared Detectors of the present utility model.

Fig. 2 is the end view of non-maintaining Infrared Detectors of the present utility model.

Fig. 3 is the internal structure schematic diagram of non-maintaining Infrared Detectors of the present utility model.

Wherein,

1 detector body

2 shells

3 infrared sensors

4 Infrared Lens

5 rechargeable batteries

6 battery cases

7USB interface

8 wireless energies collect transducer

9 firm bankings

10 fixed parts

11 solar panels

12PCB circuit board

13 iron hemisphere

Embodiment

In order to more clearly describe technology contents of the present utility model, conduct further description below in conjunction with specific embodiment.

Refer to shown in Fig. 1 to Fig. 2, non-maintaining Infrared Detectors of the present utility model, described detector comprises detector body 1, the Infrared Lens 4 that described detector body 1 comprises shell 2, is arranged at the infrared sensor 3 in described shell 2 and is arranged on described shell 2, described detector also comprises:

Be arranged at the rechargeable battery 5 in described shell 2, power in order to give described detector;

Be arranged at the solar panel 11 on described shell 2, in order to solar energy is changed into electric energy to power to described detector;

Be arranged at the USB charging inlet on described shell 2, in order to be powered to give described detector by USB charging wire;

The wireless energy be arranged in described shell 2 collects transducer 8, in order to the wireless energy in collection space, and described wireless energy is converted to electric energy to power to described detector.

In a preferred embodiment, it be WIFI collection of energy transducer that described wireless energy collects transducer 8, is converted into electric energy to charge to described rechargeable battery 5 in order to the WIFI microwaves in collection space.

Refer to shown in Fig. 1, non-maintaining Infrared Detectors of the present utility model is from outward appearance, comprise shell 2, Infrared Lens 4, solar panel 11, battery case 6 and USB charging inlet, in a preferred embodiment, described USB charging inlet is mini USB charging inlet.In addition in the shell 2 of non-maintaining Infrared Detectors of the present utility model, in order to coordinate the realization of corresponding function, be provided with a mainboard, mainboard is provided with super low-power consumption infrared sensor 3, solar charging electric control module, wireless energy collects modular converter, USB charging module etc., wherein solar charging electric control module, wireless energy collects modular converter, USB charging module is all connected with rechargeable battery 5, to realize the charging to rechargeable battery 5, thus avoid non-maintaining Infrared Detectors of the present utility model to need dismounting and change battery in the short time, thus add the life-span of non-maintaining Infrared Detectors of the present utility model.

As seen from the above description, non-maintaining Infrared Detectors of the present utility model possesses 3 kinds of charging modes simultaneously:

(1) solar recharging: high performance solar cells plate is equipped with on Infrared Detectors first half surface can be that electric energy charges to the rechargeable battery 5 in Infrared Detectors light energy conversion expeditiously;

(2) WIFI wireless charging: be nowadays WIFI signal everywhere, the utility model built-in WIFI collection of energy modular converter, can transform " extraction " electric current, to the lithium cell charging in Infrared Detectors by WIFI microwaves ubiquitous in environment;

(3) Infrared Detectors is designed with mini USB charging inlet, when other charge conditions do not possess, Infrared Detectors can be taken off from mounting seat and charge to Infrared Detectors by the mini USB charge power supply of standard.More than 1 year can be used continuously after being full of electricity at every turn.

Above three kinds of charging modes are and deposit, and first two mode does not need human intervention automatically, as long as have certain sunray or light in environment, or has the WIFI signal of some strength, just how can automatically realize charging to the trace of Infrared Detectors.Can ensure that Infrared Detectors does not need maintenance to realize non-maintaining automatic power within the time in useful life.Only need to take off Infrared Detectors every about 1 year in all ungratified situation of above 2 kinds of conditions, charge once by mini USB power source.

In a preferred embodiment, described infrared sensor 3 is low-power-consumption infrared transducer 3.

In a preferred embodiment, described detector body 1 also comprises a main control module, in order to when described infrared sensor 3 is not triggered, detector described in control is resting state, and when described infrared sensor 3 is triggered work, the detector described in control is operating state.

The Another reason of the non-maintaining characteristic of non-maintaining Infrared Detectors of the present utility model is ultra-micro power consumption circuit design: ultra-micro power consumption chip quiescent dissipation levels off to zero, reaches microampere order, just produces certain power consumption when only having Infrared Detectors to be triggered.What such as only depend on that Infrared Detectors carries is solar powered, when indoor light is more sufficient or light is more sufficient, does not need other power acquisition mode sets just substantially can normally to work by long term maintenance door magnetic.For another example: if Infrared Detectors can receive WIFI signal, namely by WIFI collection of energy modular converter, the WIFI microwaves in environment can be transformed " extraction " electric current, to the lithium cell charging in Infrared Detectors.These two automatic energy acquisitions of kind and supply power mode combinationally use the power reguirements that can meet the utility model Infrared Detectors.

In a preferred embodiment, described rechargeable battery 5 is lithium battery.

In a preferred embodiment, described detector also comprises firm banking 9, and described detector body 1 is arranged on described firm banking 9 by an iron hemisphere 13.

One more preferred embodiment in, described firm banking 9 by seamless glue or bolt be fixed on band installation site.

One more preferred embodiment in, described shell 2 is also provided with fixed part 10, and described detector body 1 is fixed on described firm banking 9 by described fixed part 10.

In a preferred embodiment, described fixed part 10 is magnet, hanging hole or seamless glue.

Non-maintaining Infrared Detectors design of the present utility model is furnished with firm banking 9, suggestion adopts seamless glue or screw (base designs has screw installing hole) first base to be fixed on to be needed on the position wall of installation infrared detector, and Infrared Detectors main body 1 is hanging on base again.Change when facilitating infrared acquisition to damage like this, also conveniently take off the mini USB power source of infrared acquisition and charge to door magnetic.

In the technical scheme of non-maintaining non-maintaining Infrared Detectors of the present utility model, each wherein included function device all can correspond to actual particular hardware circuit structure, therefore this router only utilizes hardware circuit of the prior art just can realize, and does not need to assist namely automatically to realize corresponding function with specific control software design.

Have employed the non-maintaining Infrared Detectors in this utility model, compared with prior art, there is following beneficial effect:

Non-maintaining Infrared Detectors of the present utility model, can ensure that Infrared Detectors does not need maintenance to realize non-maintaining automatic power within the time in useful life, and structure is simple, has wide range of applications.

In this description, the utility model is described with reference to its specific embodiment.But, still can make various amendment and conversion obviously and not deviate from spirit and scope of the present utility model.Therefore, specification and accompanying drawing are regarded in an illustrative, rather than a restrictive.

Claims (8)

1. a non-maintaining Infrared Detectors, described detector comprises detector body, described detector body comprises shell, the Infrared Lens being arranged at the infrared sensor in described shell and being arranged on described shell, it is characterized in that, described detector also comprises the rechargeable battery be arranged in described shell, be arranged at the solar panel on described shell, be arranged at the USB charging inlet on described shell, the wireless energy be arranged in described shell collects transducer, described solar panel, USB charging inlet and wireless energy are collected transducer and are all connected with described rechargeable battery.

2. non-maintaining Infrared Detectors according to claim 1, is characterized in that, it is WIFI collection of energy transducer that described wireless energy collects transducer, is converted into electric energy with to the charging of described rechargeable battery in order to the WIFI microwaves in collection space.

3. non-maintaining Infrared Detectors according to claim 1, is characterized in that, described infrared sensor is low-power-consumption infrared transducer.

4. non-maintaining Infrared Detectors according to claim 1, is characterized in that, described rechargeable battery is lithium battery.

5. non-maintaining Infrared Detectors according to claim 1, is characterized in that, described detector also comprises firm banking, and described detector body is arranged on described firm banking.

6. non-maintaining Infrared Detectors according to claim 5, is characterized in that, described firm banking is fixed on band installation site by seamless glue or bolt.

7. non-maintaining Infrared Detectors according to claim 5, is characterized in that, described shell is also provided with fixed part, and described detector body is fixed on described firm banking by described fixed part.

8. non-maintaining Infrared Detectors according to claim 7, is characterized in that, described fixed part is magnet, hanging hole or seamless glue.