CN210867891U - 5G distribution control camera - Google Patents

Abstract

The utility model provides a 5G cloth accuse camera, switching on and shutting down circuit structure is simple, and is with low costs, and it is convenient to maintain. The camera component is arranged on the holder component, and the holder component is arranged on the base component; the button module, the connector and the control assembly are all arranged on the base shell; the control assembly is provided with a processing module, a power supply module and a switching-on/off circuit; the positive terminal and the negative terminal are connected with the connector; the button module is respectively connected with the cathode of the diode, the processing module and the grounding end; one end of the first resistor is connected with one end of the second resistor and the G pole of the MOS tube respectively, and the other end of the first resistor and the D pole of the MOS tube are connected with the positive pole end; the other end of the second resistor is respectively connected with the anode of the diode and the collector of the triode; the base electrode of the triode is connected with the processing module, and the emitting electrode of the triode is connected with the grounding end; the S pole of the MOS tube is respectively connected with one end of the filter capacitor, the negative pole end of the filter capacitor and the power module; the other end of the filter capacitor is connected with the grounding end.

Description

5G distribution control camera

Technical Field

The utility model relates to a 5G cloth accuse camera belongs to surveillance camera equipment.

Background

The 5G deployment control camera is used as a means for acquiring a mobile scene in real time, and is widely applied to a mobile monitoring security system for temporary important activities. However, in the current 5G deployment-control camera, the on-off circuit is complex, the design and manufacturing cost is high, and the maintenance is not easy.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a 5G cloth accuse camera that structural design is reasonable, switching on and shutting down circuit simple structure, it is with low costs, it is convenient to maintain.

The utility model provides a technical scheme that above-mentioned problem adopted is: A5G cloth control camera comprises a base assembly, a holder assembly and a camera assembly; the camera component is arranged on the holder component, and the holder component is arranged on the base component; the base component comprises a button module, a base shell, a connector and a control component; the button module, the connector and the control assembly are all arranged on the base shell; the control assembly is provided with a processing module, a power supply module and a switching-on/off circuit; the method is characterized in that: the on-off circuit comprises a first resistor, a second resistor, an MOS (metal oxide semiconductor) tube, a filter capacitor, a diode, a triode, a positive terminal, a negative terminal and a grounding terminal; the positive terminal and the negative terminal are connected with the connector; the button module is respectively connected with the cathode of the diode, the processing module and the grounding end; one end of the first resistor is connected with one end of the second resistor and the G pole of the MOS tube respectively, and the other end of the first resistor and the D pole of the MOS tube are connected with the positive pole end; the other end of the second resistor is respectively connected with the anode of the diode and the collector of the triode; the base electrode of the triode is connected with the processing module, and the emitting electrode of the triode is connected with the grounding end; the S pole of the MOS tube is respectively connected with one end of the filter capacitor, the negative pole end of the filter capacitor and the power module; the other end of the filter capacitor is connected with the grounding end.

The power on/off circuit still include No. three resistance, the base of triode is connected with processing module through No. three resistance.

Button module in be provided with the pilot lamp, the on-off circuit still include No. four resistances, processing module is connected through the pilot lamp in No. four resistances and the button module.

The base shell of the utility model is made of non-metallic materials.

Control assembly set up the 5G module.

Camera subassembly include camera dustcoat and camera, the camera is installed inside the camera dustcoat.

The cradle head component of the utility model comprises a cradle head shell, a cradle head bracket component and a transmission component; the transmission assembly is arranged on the holder bracket assembly, and the holder shell is arranged outside the holder bracket assembly; the transmission assembly is connected with the camera assembly and the base assembly.

Base subassembly still include battery pack, battery pack installs on base shell, battery pack is connected with positive terminal and negative pole end.

The connector of the utility model adopts an aviation plug.

Compared with the prior art, the utility model, have following advantage and effect: the switch circuit adopts common parts such as a resistor, an MOS tube, a diode, a triode and the like, and has the advantages of simple structure, low cost, convenient maintenance and small volume.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is the utility model discloses embodiment cloud platform subassembly's structural schematic.

Fig. 3 is a schematic structural diagram of a base assembly according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a camera assembly according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the connection of the power on/off circuit, the button module, the processing module, and the power module according to the embodiment of the present invention.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.

Referring to fig. 1 to 5, the embodiment of the present invention includes a base assembly 17, a pan/tilt assembly 12, and a camera assembly 13. Camera assembly 13 is mounted on pan/tilt assembly 12, and pan/tilt assembly 12 is mounted on base assembly 17.

The camera assembly 13 includes a camera housing 22 and a camera 23, and the camera 23 is mounted inside the camera housing 22. The camera assembly realizes the acquisition of video signals.

Pan head assembly 12 includes a pan head housing 16, a pan head carriage assembly 14, and a drive assembly 15. The transmission assembly 15 is mounted on the pan/tilt head support assembly 14, and the pan/tilt head housing 16 is mounted outside the pan/tilt head support assembly 14. The transmission assembly 15 is connected with the camera assembly 13 and the base assembly 17, so that the camera assembly 13 can vertically move on the pan-tilt assembly 12, and the pan-tilt assembly 12 horizontally rotates on the base assembly 17.

The base assembly 17 includes a button module 8, a base housing 18, a connector 19, a control assembly 20, and a battery assembly 21. The button module 8, the connector 19, the control assembly 20 and the battery assembly 21 are all mounted on the base housing 18. The base housing 18 is made of non-metallic material for signal transmission of 5G and various antennas. Control assembly 20 is provided with processing module 10, power module 11, switching on and shutting down circuit, 5G module, WIFI module, big dipper and GPS module. Power module 11 is connected with processing module 10, 5G module, drive assembly 15, camera 23, WIFI module, big dipper and GPS module, plays the effect of power supply. An indicator light is arranged in the button module 8. Processing module 10 is connected with 5G module, transmission assembly 15, camera 23, WIFI module, big dipper and GPS module. The connector 19 is used for external power supply, and the connector 19 adopts an aviation plug. The battery assembly 21 is used to supply power frequently without an external power supply.

The switching circuit comprises a first resistor 1, a second resistor 3, a third resistor 4, a fourth resistor 9, an MOS (metal oxide semiconductor) tube 2, a filter capacitor 7, a diode 6, a triode 5, a positive terminal IN and a negative terminal OUT.

The positive terminal IN and the negative terminal OUT are connected to the connector 19 and the battery assembly 21. The button module 8 is respectively connected with the cathode of the diode 6, the processing module 10 and the ground terminal. One end of the first resistor 1 is connected with one end of the second resistor 3 and the G pole of the MOS tube 2 respectively, and the other end of the first resistor 1 and the D pole of the MOS tube 2 are connected with the positive electrode terminal IN. The other end of the second resistor 3 is respectively connected with the anode of the diode 6 and the collector of the triode 5. The base electrode of the triode 5 is connected with the processing module 10 through the third resistor 4, and the emitting electrode of the triode 5 is connected with the grounding terminal. The S pole of the MOS tube 2 is respectively connected with one end of the filter capacitor 7, the negative pole end OUT and the power module 11. The other end of the filter capacitor 7 is connected to the ground terminal. The processing module 10 is connected with an indicator lamp in the button module 8 through a four-resistor 9.

The switching circuit works as follows:

the starting process comprises the following steps: when the button module 8 is pressed, the button module 8 connects the negative terminal of the diode 6 with the ground terminal, the driving voltage input from the connector 19 or the battery assembly 21 at the positive terminal IN is divided by the first resistor 1 and the second resistor 3 to obtain the starting voltage meeting the requirement of the MOS transistor 2, the MOS transistor 2 is started, the negative terminal OUT has voltage output and supplies power to the power module 11, the power module 11 outputs the voltage required by the processing module 10, and the processing module 10 is started; the processing module 10 controls the triode 5 through the third resistor 4, so that the triode 5 is in a saturation state, and the MOS tube 2 can be continuously started even if the button module 8 is released. The processing module 10 turns on the indicator light in the button module 8 through the four-resistor 9 to indicate that the camera is in the on state at the moment. The third resistor 4 is a current-limiting resistor and provides a reasonable driving current for the triode 5. The fourth resistor 9 is a current-limiting resistor and provides a reasonable driving current for the indicator light.

Shutdown process: when button module 8 is pressed again, processing module 10 controls triode 5 through No. three resistance 4, makes triode 5 be IN the off-state, and after button module 8 unclamped, diode 6's negative pole end and earthing terminal disconnection, the drive voltage of positive terminal IN input no longer carries OUT the partial pressure through a resistance 1 and No. two resistance 3, and MOS pipe 2 closes, no longer gives power module 11 and negative pole end OUT power supply, and processing module 10 falls the power, and button module 8's pilot lamp extinguishes.

In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention.

Claims (9)

1. A5G cloth control camera comprises a base assembly, a holder assembly and a camera assembly; the camera component is arranged on the holder component, and the holder component is arranged on the base component; the base component comprises a button module, a base shell, a connector and a control component; the button module, the connector and the control assembly are all arranged on the base shell; the control assembly is provided with a processing module, a power supply module and a switching-on/off circuit; the method is characterized in that: the on-off circuit comprises a first resistor, a second resistor, an MOS (metal oxide semiconductor) tube, a filter capacitor, a diode, a triode, a positive terminal, a negative terminal and a grounding terminal; the positive terminal and the negative terminal are connected with the connector; the button module is respectively connected with the cathode of the diode, the processing module and the grounding end; one end of the first resistor is connected with one end of the second resistor and the G pole of the MOS tube respectively, and the other end of the first resistor and the D pole of the MOS tube are connected with the positive pole end; the other end of the second resistor is respectively connected with the anode of the diode and the collector of the triode; the base electrode of the triode is connected with the processing module, and the emitting electrode of the triode is connected with the grounding end; the S pole of the MOS tube is respectively connected with one end of the filter capacitor, the negative pole end of the filter capacitor and the power module; the other end of the filter capacitor is connected with the grounding end.

2. The 5G deployment camera of claim 1, wherein: the power on-off circuit further comprises a third resistor, and the base of the triode is connected with the processing module through the third resistor.

3. The 5G deployment camera of claim 1, wherein: the button module is internally provided with an indicator lamp, the switching circuit further comprises a fourth resistor, and the processing module is connected with the indicator lamp in the button module through the fourth resistor.

4. The 5G deployment camera of claim 1, wherein: the base shell is made of non-metal materials.

5. The 5G deployment camera of claim 1, wherein: the control assembly is provided with a 5G module.

6. The 5G deployment camera of claim 1, wherein: the camera assembly comprises a camera outer cover and a camera, and the camera is installed inside the camera outer cover.

7. The 5G deployment camera of claim 1, wherein: the holder assembly comprises a holder shell, a holder bracket assembly and a transmission assembly; the transmission assembly is arranged on the holder bracket assembly, and the holder shell is arranged outside the holder bracket assembly; the transmission assembly is connected with the camera assembly and the base assembly.

8. The 5G deployment camera of claim 1, wherein: the base component further comprises a battery component, the battery component is installed on the base shell, and the battery component is connected with the positive pole end and the negative pole end.

9. The 5G deployment camera of claim 1, wherein: the connector adopts an aviation plug.

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