CN209982568U - Wireless network camera equipment capable of being charged circularly - Google Patents

Abstract

The utility model discloses a wireless network camera equipment that can circulate and charge, including lamp plate and mainboard, lamp plate and mainboard are all installed inside the shell, be equipped with white light filling lamp, infrared light filling lamp one, infrared light filling lamp two, pilot lamp and photosensitive element on the lamp plate, the mainboard top is equipped with PIR, microphone, antenna, mainboard/lamp board connector and loudspeaker shell fragment, and the loudspeaker shell fragment is connected with loudspeaker, and the camera lens cover is in PIR's outside. The utility model has the advantages that: wiring is not needed, and the system can be quickly installed, quickly networked and monitored in real time; the device is supported to work for a longer time, the battery does not need to be replaced frequently, and the user can be reminded to charge the device when the battery is in low power; the battery can be dismantled, when the battery damages, convenient quick change.

Description

Wireless network camera equipment capable of being charged circularly

Technical Field

The utility model relates to a camera technical field specifically is a wireless network camera equipment that can circulate and charge.

Background

The network camera is a new generation camera combining traditional camera and network technology, it can transmit the image to the other end of the earth through the network, and the remote browser can monitor the image without any professional software.

Currently used webcam products are all powered by 5V/12V DC power supplies, and most of the products need to be equipped with RJ45 ethernet interfaces to connect to a local area network through a category 5 ultra-network line. Thus, the difficulty of wiring and networking is increased, and the use scene is limited; too much power consumption may result. In addition, the current network camera product is used under low illumination, images are black and white, picture details can be lost, and the picture restoration of a monitored scene is not facilitated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wireless network camera equipment that can circulate and charge, in order to solve the problem of proposing among the background art.

In order to realize the purpose, the utility model provides a following technical scheme:

the utility model provides a wireless network camera equipment that can circulate and charge, including lamp plate and mainboard, lamp plate and mainboard are all installed inside the shell, be equipped with white light filling lamp on the lamp plate, infrared light filling lamp one, infrared light filling lamp two, pilot lamp and light sensitive element, the mainboard top is equipped with PIR, the microphone, the antenna, mainboard/lamp board connector and loudspeaker shell fragment, the loudspeaker shell fragment is connected with loudspeaker, the camera lens cover is in PIR's outside, the mainboard below is equipped with mainboard/TF board connector, USB power board connector and battery socket connector, the battery socket connector is connected with the battery, mainboard/TF board connector is connected with the TF platelet, be equipped with the SOS button on the TF platelet, Reset button and TF seat.

As a further aspect of the present invention: the shell is provided with a rear cover popup key, a human body pyroelectric sensor lens, a microphone hole, a horn hole, a TYPE-C USB seat and a support screw.

As a further aspect of the present invention: the photosensitive element is a photosensor.

As a further aspect of the present invention: and the shell is provided with an SOS key hole, a white light supplement lamp lens, an infrared light supplement lamp lens I and an infrared light supplement lamp lens II.

As a further aspect of the present invention: the shell is circular, and the SOS key and the rear cover pop-up key are combined into a whole.

Compared with the prior art, the beneficial effects of the utility model are that: 1, wiring is not needed, and the system can be quickly installed, quickly networked and monitored in real time; 2, the device can be supported to work for a longer time, the battery does not need to be replaced frequently, and the user can be reminded to charge the device when the battery is in a low power state. 3, the battery can be disassembled, and when the battery is damaged, the battery can be conveniently and rapidly replaced. 4, the customized lithium battery can be used for supplying power to the equipment, and a standard USB typeC interface can also be used for supplying power to the equipment, so that the switching is simple and convenient. 5, compact structure is small and exquisite, cooperates different supports, selects corresponding scene mode simultaneously on APP, like domestic ordinary IPC, domestic baby monitor, outdoor solar camera etc.. 6, pass through USB type C articulate equipment with solar cell panel, accessible solar cell panel charges equipment.

Drawings

FIG. 1 is a schematic flow chart of the product of the present invention;

FIG. 2 is a front view of the internal structure of the product of the present invention;

FIG. 3 is a top view of the internal structure of the product of the present invention;

FIG. 4 is a left side view of the internal structure of the product of the present invention;

FIG. 5 is a front view of the housing of the product of the invention;

FIG. 6 is a bottom view of the housing of the product of the invention;

FIG. 7 is a left side view of the housing of the product of the present invention;

FIG. 8 is a right side view of the housing of the product of the present invention;

fig. 9 is a rear view of the housing of the product of the invention.

In the figure: 1. a white light supplement lamp; 2. a first infrared light supplement lamp; 3. a second infrared light supplement lamp; 4. an indicator light; 5. a photosensitive element; 6. a lamp panel; 7. a lens; 8. PIR; 9. a microphone; 10. an antenna; 11. a main board; 12. a horn; 13. a motherboard/light board connector; 14. a horn spring; 15. motherboard/TF board connectors; 16. an SOS key; 17. a TF platelet; 18. a Reset key; 19. TF seat; 20. a USB power board connector; 21. a battery holder connector; 22. a battery; 23. the rear cover pops out the key; 24. SOS key holes; 25. a white fill light lens; 26. a first infrared light supplement lamp lens; 27. a second infrared light supplement lamp lens; 29. a human pyroelectric sensor lens; 30. a microphone aperture; 31. a horn hole; 32. TYPE-C USB seat; 33. and (4) a bracket screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-6, a wireless network camera device capable of being charged cyclically includes a lamp panel 6 and a motherboard 11, where the lamp panel 6 and the motherboard 11 are both installed inside a housing, and the housing of the device is circular in appearance. The appearance is succinct, mellow and full, there is the affinity, be equipped with white light filling lamp 1 on lamp plate 6, infrared light filling lamp 2, two 3 infrared light filling lamps, pilot lamp 4 and light sensing element 5, white light filling lamp 1, infrared light filling lamp 2, two 3 infrared light filling lamps lead to preceding ya keli plane through the lamp cup of customization, light sensing element 5 is hidden design, the aperture has been opened on the lens decoration lid, be used for the light sensor daylighting, mainboard 11 top is equipped with PIR8, microphone 9, antenna 10, mainboard/lamp plate connector 13 and loudspeaker shell fragment 14, loudspeaker shell fragment 14 is connected with loudspeaker, camera lens 7 cover is in the outside of PIR8, mainboard 11 below is equipped with mainboard/TF board connector 15, USB power supply board connector 20 and battery holder connector 21, battery holder connector 21 is connected with the battery, mainboard/board connector TF 15 is connected with the platelet 17, be equipped with SOS button 16 on the TF platelet 17, Reset key 18 and TF holder 19. The shell is provided with a rear cover pop-up key 23, a human body pyroelectric sensor lens 29, a microphone hole 30, a horn hole 31, a TYPE-C USB seat 32 and a bracket screw 33. The microphone hole 30 and the horn hole 31 are respectively positioned at two sides of the equipment, and the appearance is uniform and symmetrical, so that the equipment can eliminate echoes during two-way talkback. And an SOS key hole 24, a white light supplement lamp lens 25, a first infrared light supplement lamp lens 26 and a second infrared light supplement lamp lens 27 are arranged on the shell.

Workflow and device function description:

the working state is as follows:

1. waiting for a distribution network;

the device is red and blue alternately breathes and flickers at the moment, and the image sensor shoots a picture and sends out a WIFI hotspot with a specific name at the same time, which indicates that the device is in a waiting distribution network mode. The distribution network mode has two kinds: 1. the image sensor is used for capturing an image, and if a specific two-dimensional code is captured and contains the SSID and the password of the route to be connected by the equipment, the equipment can be automatically connected with the specified route. 2. The network is distributed through the WIFI hotspot, the mobile phone is connected to a hotspot sent by the equipment, the SSID and the password of the route connected with the expected equipment are sent to the equipment, and the equipment can be automatically connected to the specified route after receiving the SSID and the password.

2. Dormancy;

the equipment is already allocated to the internet, and under the condition that no trigger event exists and the user watches live, the equipment can enter a sleep mode after 15 seconds of no event trigger according to a preset mechanism.

The working mode is as follows:

1. a low power mode;

the device enters the dormancy state under the condition that no trigger event exists and the user watches live broadcast; immediately waking up and recording the video after a trigger event comes, and entering dormancy after the video is recorded for about 15 seconds; the device goes to sleep 15 seconds after the live video recording stops. During dormancy, the equipment and the server send heartbeat packets through the WIFI to keep connection. There are two ways to wake up a device: 1. the equipment is awakened through a trigger event, and if a human body pyroelectric sensor of the equipment is triggered, the equipment can start a video immediately; 2. through the long-range awakening of cell-phone APP, after cell-phone APP clicked the awakening equipment, the server sent the awakening command to the equipment, and equipment WIFI awakens the equipment immediately after receiving the awakening signal.

2. A normal power-on mode;

the device is after joining in marriage the net, and live the image on APP, can set up equipment through APP this moment and enter into the mode of often going up electricity. Under the normal power-on mode, the equipment cannot enter the dormancy state, and records the video all the time, and stores the video into the TF card.

Description of functional modules:

infrared lamp, white light lamp, and photosensitive:

when the equipment works in a low power consumption mode, the photosensitive diode is used for detecting the ambient brightness, and when the brightness is low, the white light lamp is turned on to supplement light for the equipment mirror image; when the equipment works in a normally-on mode, the photosensitive earphone detects the ambient brightness, when the brightness is low, the infrared lamp is turned on, the optical filter switcher switches the optical filter to a full-transmission mode, the image frame saturation is reduced to 0, and non-interference monitoring in a low-illumination environment is achieved.

RGB LED pilot lamp;

the 4 RGB LEDs form a lamp strip through the light guide column. The user can define the color and display mode through the APP.

Human body pyroelectric sensor and human body pyroelectric lens;

the human body pyroelectric sensor and the human body pyroelectric lens form a human body movement detection module. When a person moves in front of the equipment, the human body movement detection module outputs corresponding information through the internal high-precision ADC.

An image sensor, a lens and a filter switcher;

the image sensor, the lens and the optical filter switcher form an image sensing module. The light passes through the lens, then reaches the optical filter and finally is focused on the target surface of the image sensor. The image sensor module outputs image raw data to be processed by the image processor.

The housing is circular and the SOS button 24 and the rear cover eject button 23 are integrated.

Example 2: on the basis of embodiment 1, (1) the internal key devices of the equipment are selected:

by adopting a 1080P starlight level image sensor, the area of a target surface of the sensor reaches 1/2.8 inch, the size of a single pixel point reaches 2.9 mu m X2.9 mu m, the image resolution is ensured to reach 1080P, and the effect of a color image at low illumination can be also considered. The image sensor image signal is connected with the ISP chip through the MIPI interface, and can transmit 1080P 60 frames per second image at most. According to different monitoring scenes, different frame rates can be used while power consumption is considered.

By adopting the ISP, the main frequency reaches 800MHz, the original image data can be processed by the ISP to output the video stream in the H.265 format, the compression rate is high, the image quality is better, and the method is more suitable for WIFI transmission.

Explanation of the switching principle of lithium battery power supply and USB power supply:

referring to fig. 7, the USB power supplies pass through the overvoltage protection IC ETA7014S2G and then perform path management to the charging management IC ETA 6003. When the USB 5V power supply is connected, the charging IC distributes a part of current to the lithium battery for charging, and the other part of current supplies power to the equipment. When the USB 5V power supply is disconnected, the ETA6003 switches the path of the power supply to the battery to supply power to the equipment. When adopting solar cell panel to charge equipment, because solar cell panel power supply changes along with sunshine changes, when the solar cell panel power supply is not enough to let equipment normally work, ETA6003 is automatic to be switched the power supply route into the battery and solar energy supplies power together, when equipment dormancy, demand current is very little, solar cell panel is enough to supply power for equipment this moment, ETA6003 can give equipment power supply with solar cell panel's partly electric current, another part gives the battery power supply.

SOS Key principle description:

the SOS keys are one-touch call keys. When the device is used at home, the device is in a dormant state under normal conditions, and when the PIR triggers the alarm, the mobile phone receives the alarm prompt of the device. But at this point the handset may ignore the information, perhaps for network reasons or other reasons. If the user has an emergency at home, the family of the user can perform one-key alarm through the SOS key at the moment. At the moment, the server informs the user in a mode of dialing the user telephone and pushing the emergency message through the network, a person in the house calls or gives an alarm in a one-key alarm mode, and the person in the house is in an emergency situation and needs to know the situation in the house through equipment in time and then further process the situation.

PIR movement detection can set detection range principle description:

the PIR passes through the front lens and divides the front sensing distance of the lens into zones. This equipment PIR lens collocation PIR can accurate induction range within 8 meters apart from equipment. PIR internally carries a high precision ADC, and the difference between human activity at far and human activity at near is the value of the ADC output. When a person is in near activity, the energy radiated by the human body is transmitted to the PIR probe through the lens more than when the person is in far activity, the value output by the ADC is relatively larger at the moment, and otherwise, the value output by the ADC is smaller. Different values output by the ADC correspond to different distances, a user can set the range of the ADC, and as long as the finger of the ADC falls into the range, the equipment starts video recording and pushes a message to the equipment. If it falls outside the range set by the client, the device does not respond.

The principle of the autonomous collocation of the colors and the display modes of the indicator lamps is illustrated as follows:

the indicator lamp of the equipment drives 4 RGB LEDs through the LED special chip, and the chip for driving the LEDs is connected with the main control chip through an I2C interface. The main control chip sends a command to the LED driving chip through the I2C, the brightness of each red, green and blue LED lamp can be adjusted, and the red, green and blue colors can be combined into any color. Meanwhile, the current of each RGB LED can be smoothly adjusted, so that the effect of LED like breathing is realized. Some common display modes are well defined, the APP is selected through keys, for example, 4 RGB displays red and has a breathing effect, at the moment, the mobile phone transmits a command to the equipment through a network, the main control of the equipment sends the corresponding command to the IC for driving the LED through an I2C interface, and the IC for driving the LED interprets the command and obtains the actually-desired effect.

(3) The working flow and principle of the equipment are described as follows:

a, normal power-on mode

The power is supplied to the equipment through the USB, the equipment cannot be dormant at the moment, the equipment records the video all the time as long as the equipment is not powered off, and the video is stored in the TF card. If the PIR motion detection alarm is turned on and the equipment detects the PIR alarm, the video will be marked on the time axis and the video is transmitted to the cloud for storage.

B, low power consumption mode

When the device is powered by a battery, the device operates in a low power mode. The equipment enters a dormant state about 15S after the distribution network, and at the moment, the equipment and the server are in keep-alive connection. When the protection connection is carried out, a heartbeat packet is sent to the server within a time interval specified by a WIFI module of the equipment, and the server judges whether the equipment is connected with the server or not through the heartbeat packet. The device can be woken up in two ways at this time: 1. through PIR motion detection alarm, after the equipment detects that the motion detection alarm is interrupted, the equipment immediately wakes up for video recording and transmits the video recording to the cloud end; 2. through the APP remote awakening equipment, after the equipment receives the awakening command through the WIFI, the equipment immediately wakes up to record a video and transmits the video to the cloud.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a wireless network camera equipment that can circulate and charge, includes lamp plate (6) and mainboard (11), inside the shell is all installed in lamp plate (6) and mainboard (11), its characterized in that, mainboard (11) top is equipped with PIR (8), microphone (9), antenna (10), mainboard/lamp board connector (13) and loudspeaker shell fragment (14), and mainboard (11) below is equipped with mainboard/TF board connector (15), USB power board connector (20) and battery holder connector (21), and mainboard/TF board connector (15) are connected with TF platelet (17).

2. A rechargeable wireless camera device as claimed in claim 1, characterized in that the housing is provided with a rear cover eject button (23), a human pyroelectric sensor lens (29), a microphone hole (30), a speaker hole (31), a TYPE-C USB socket (32) and a bracket screw (33).

3. The wireless network camera device capable of being charged circularly as claimed in claim 2, wherein an SOS key hole (24), a white fill-in light lens (25), a first infrared fill-in light lens (26) and a second infrared fill-in light lens (27) are disposed on the housing.

4. A rechargeable wireless network camera device according to any of claims 1-3, characterized in that the housing is circular, and the SOS button (16) and the back cover eject button (23) are integrated.

5. A rechargeable wireless network camera device as claimed in claim 1, characterized in that the battery socket connector (21) is connected to a battery.

6. A rechargeable wireless network camera device according to claim 1, characterized in that the TF platelet (17) is provided with an SOS button (16), a Reset button (18) and a TF holder (19).

7. The wireless network camera device capable of being charged circularly as claimed in claim 1, wherein a white light supplement lamp (1), a first infrared light supplement lamp (2), a second infrared light supplement lamp (3), an indicator lamp (4) and a photosensitive element (5) are arranged on the lamp panel (6).

8. A rechargeable wireless network camera device according to claim 1, characterized in that the speaker dome (14) is connected to the speaker.

Images