CN116389717A - Outdoor camera detection device and control method thereof - Google Patents

Abstract

The invention discloses an outdoor camera detection device and a control method thereof, wherein the outdoor camera detection device comprises a driving component for driving a heating component to move and a timer for timing the triggering speed time of an outdoor camera, and the outdoor camera detection device comprises the following steps: s100, when a first instruction is acquired, controlling the driving assembly to work so that the driving assembly drives the heating assembly to move until the heating assembly reaches a preset position which can be sensed by a pyroelectric infrared sensor of an outdoor camera; s200, controlling the timer to start timing and displaying corresponding timing time; s300, acquiring timer display image information shot by the outdoor camera, determining trigger speed time of the outdoor camera according to the image information, and prompting. The invention aims to improve the detection precision of an outdoor camera.

Description

Outdoor camera detection device and control method thereof

Technical Field

The invention relates to the technical field of detection, in particular to an outdoor camera detection device and a control method thereof.

Background

The outdoor camera is a low-power-consumption electronic product, most of the time is in a dormant state, and when a person or animal passes through the outdoor camera, PIR in the outdoor camera wakes up the camera to work after sensing the temperature difference change. The camera is awakened to take a picture, and then the picture is stored, the shorter the period of time is, the more the height of the technical index of the outdoor camera can be represented, so that the PIR triggering time has great influence on the shooting efficiency of the outdoor camera, and how to accurately test the PIR triggering time is very important.

Disclosure of Invention

The invention mainly aims to provide an outdoor camera detection device and a control method thereof, and aims to improve the detection precision of an outdoor camera.

Therefore, the invention provides a control method of an outdoor camera detection device, the outdoor camera detection device comprises a driving component for driving a heating component to move and a timer for timing the triggering speed time of the outdoor camera, and the control method comprises the following steps:

s100, when a first instruction is acquired, controlling the driving assembly to work so that the driving assembly drives the heating assembly to move until the heating assembly reaches a preset position which can be sensed by a pyroelectric infrared sensor of an outdoor camera;

s200, controlling the timer to start timing and displaying corresponding timing time;

s300, acquiring timer display image information shot by the outdoor camera, determining trigger speed time of the outdoor camera according to the image information, and prompting.

Optionally, the heating component reaching the preset position which can be sensed by the pyroelectric infrared sensor of the outdoor camera is specifically that the heating component reaches the preset window which can be sensed by the pyroelectric infrared sensor of the outdoor camera and contacts with one end of the preset window.

Optionally, before the step S100, the method further includes:

and S400, when the outdoor camera detection device acquires the power-on instruction, controlling the heating component to generate heat.

Optionally, the step S100 specifically includes:

and S110, when the outdoor camera detection device acquires a first instruction, controlling the driving assembly to work, so that the driving assembly drives the heating assembly to descend until the heating assembly reaches a preset window which can be sensed by the pyroelectric infrared sensor of the outdoor camera.

Optionally, the step S200 specifically includes:

and S210, triggering a limit switch to control the timer to start timing when the heating component reaches a preset position sensed by the pyroelectric infrared sensor in the outdoor camera, and displaying corresponding timing time.

Optionally, the step S300 specifically includes:

and acquiring the timer display time of the outdoor camera shooting, determining the trigger speed time of the outdoor camera according to the timer display time, and outputting the trigger speed time to a display assembly to display the shooting time.

The invention also provides an outdoor camera detection device, which comprises a control method of the outdoor camera detection device and:

a housing provided with a window; the method comprises the steps of,

the outdoor camera detection device comprises a memory and a processor, wherein a detection device control program is stored in the memory, and the detection device control program realizes the steps of the control method of the outdoor camera detection device when being executed by the processor.

Optionally, the outdoor camera detection device includes:

the driving assembly is arranged in the shell;

the heating component is arranged in the shell and corresponds to the window;

the heating component and the driving component are respectively and electrically connected with the control end of the processor;

the processor is used for controlling the heating component to work so as to generate heat energy and controlling the driving component to drive the heating component to ascend/descend.

Optionally, the heating component comprises a temperature controller and a heating element, and the temperature controller is connected with the heating element;

the temperature controller is used for controlling the heating element to generate heat energy.

Optionally, the outdoor camera detection device further comprises a timer and a limit switch;

the limit switch is connected with the timer;

and the limit switch is used for controlling the timer to start timing when being triggered and displaying corresponding timing time.

Optionally, the outdoor camera detection device further comprises a trigger component, which is arranged on the shell and is used for outputting a trigger signal when triggered by a user.

Optionally, the driving assembly includes:

a cylinder;

the electromagnetic valve is connected with the air cylinder;

the input end of the processor is electrically connected with the trigger assembly, and the control end of the processor is electrically connected with the electromagnetic valve;

and the processor is used for controlling the electromagnetic valve to lead in/out gas to the cylinder when receiving the trigger signal so as to enable the cylinder to do ascending/descending movement.

Optionally, a moving slide block is arranged on the air cylinder and is connected with the heating component;

the moving slide block is used for driving the heating component to ascend/descend.

Optionally, the outdoor camera detection device includes a display component, the display component is electrically connected with the processor, and the processor is electrically connected with the outdoor camera;

the processor is used for controlling the display component to display the image information shot by the outdoor camera.

The invention provides a control method of an outdoor camera detection device, which comprises the steps of controlling a driving component to drive a heating component to move through the outdoor camera detection device, enabling the heating component to reach a preset position which can be sensed by a pyroelectric infrared sensor in an outdoor camera, simultaneously controlling a timer to start timing at the moment that the heating component reaches the preset position, waiting for the outdoor camera to wake up when sensing the heating component, shooting a timing time image displayed by the timer, obtaining the timing time image shot by the outdoor camera, determining the triggering speed time of the outdoor camera according to the timing time, controlling and displaying the triggering speed time of the outdoor camera, and analyzing the technical index of the outdoor camera through the displayed triggering speed time of the outdoor camera by a user. According to the outdoor camera detection device, the control method of the outdoor camera detection device is designed, so that the detection precision of the outdoor camera is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of steps 100-300 of an outdoor camera detection device and a control method thereof according to the present invention;

FIG. 2 is a detailed flow chart of steps 100-300 of an outdoor camera detection device and a control method thereof according to the present invention;

FIG. 3 is a circuit flow chart of an outdoor camera detection device and a control method thereof according to the present invention;

fig. 4 is a schematic structural diagram of an outdoor camera detection device and a control method thereof according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

In the present invention, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, descriptions such as those referred to as "first," "second," and the like, are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implying an order of magnitude of the indicated technical features in the present disclosure. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

It should be understood that, the outdoor camera is a low-power electronic product, most of the time is in a dormant state, and when a person or animal passes, the PIR in the camera wakes up the camera to work after sensing the temperature difference change. The camera is awakened to take a picture, and then the picture is stored, the shorter the period of time is, the more the height of the technical index of the outdoor camera can be represented, so that the PIR triggering time has great influence on the shooting efficiency of the outdoor camera, and how to accurately test the PIR triggering time is very important.

Accordingly, the present invention proposes a control method of an outdoor camera detection apparatus including a driving assembly 40 for driving a heating assembly 70 to move and a timer 10 for counting a trigger speed time of an outdoor camera, comprising the steps of:

s100, when a first instruction is acquired, controlling the driving assembly 40 to work so that the driving assembly 40 drives the heating assembly 70 to move until the heating assembly 70 reaches a preset position which can be sensed by a pyroelectric infrared sensor in an outdoor camera;

s200, controlling the timer 10 to start timing and displaying corresponding timing time;

s300, acquiring timer 10 shot by the outdoor camera, displaying image information, determining triggering speed time of the outdoor camera according to the image information, and prompting.

In practical application, before the outdoor camera detection device is started, a user connects the outdoor camera detection device with a power supply, and places the outdoor camera in a detection area of the outdoor camera detection device, so that the pyroelectric infrared sensor PIR position of the outdoor camera is aligned with a preset position of the outdoor camera detection device which can be sensed by the pyroelectric infrared sensor PIR of the outdoor camera, and the lens position of the outdoor camera is aligned with the timer 10 position of the outdoor camera detection device. Until the PIR position and the lens position of the pyroelectric infrared sensor of the outdoor camera are aligned with the lens position and the preset position of the outdoor camera detection device, the user triggers the detection device, the heating component 70 in the outdoor camera detection device rapidly moves from the shielded position to the preset position, the timer 10 is triggered to start timing when the heating component 70 contacts or collides with the preset position, and the timer 10 displays corresponding timing time when working. In addition, when the heating element 70 reaches the preset position, the outdoor camera senses the temperature of the heating element 70 at the preset position and the temperature difference change before and after the preset position, so that the outdoor camera is awakened and the lens starts to shoot the timing image of the timer 10 of the outdoor camera detection device. When the outdoor camera shoots a timing time image displayed by the timer 10, the outdoor camera detection device acquires the timing time image of the timer 10, determines the triggering speed time of the outdoor camera according to the timing time of the timer 10, and controls and displays the triggering speed time of the outdoor camera, so that a user can analyze the technical index of the outdoor camera through the displayed triggering speed time of the outdoor camera.

It should be understood that the conditions under which the outdoor camera wakes up are: the temperature difference change is sensed by the pyroelectric infrared sensor PIR in the animal body, and the temperature of the sensed heating source can reach 37 ℃ or above, wherein the temperature value of 37 ℃ simulates the body temperature value of animals/people. Accordingly, the outdoor camera detection apparatus is provided with an object for providing heat source induction for the outdoor camera, i.e., a heat generating component 70; and the outdoor camera detection device is provided with a preset position for placing the heating component 70, wherein the preset position is in a window shape, so that the heating component 70 placed in the window can be exposed to the external environment. For example, when the user does not trigger the detection device, the heat generating component 70 is at a shielding position inside the outdoor camera detection device, and at this time, the outdoor camera cannot sense the heat energy of the heat generating component 70; when the user triggers the detection device, the heating component 70 moves rapidly from the shielding position to the position of the preset window 60, and the heating component 70 is in a state of being exposed to the external environment when reaching the preset window 60, and at the moment, the outdoor camera senses the temperature of the heating component 70 and the change of the front-back temperature difference through the preset window 60, so that the awakening effect of the outdoor camera is realized.

In addition, the outdoor camera is not awakened, and is awakened, and then the time is regarded as the triggering speed time of the outdoor camera during shooting, namely the time before the outdoor camera performs shooting action is regarded as the triggering speed time, and the shorter the triggering speed time of the outdoor camera is, the more the height of the technical index of the outdoor camera can be represented, so that the timer 10 is required to count the triggering speed time of the outdoor camera to further analyze the technical index of the outdoor camera. Before the timer 10 counts the triggering speed and time of the outdoor camera, it is required to ensure that the pyroelectric infrared sensor PIR of the outdoor camera senses the heat source. When the heating element 70 reaches the preset window 60, the outdoor camera senses a heat source through the preset window 60, and the timer 10 is started when the heating element 70 reaches the preset window 60. Thus, the time period during which the timer 10 starts counting until the outdoor camera has made a photographing action is regarded as the trigger speed time of the outdoor camera.

The invention provides a control method of an outdoor camera detection device, wherein a driving component 40 is controlled by the outdoor camera detection device to drive a heating component 70 to move, so that the heating component 70 reaches a preset position which can be sensed by a pyroelectric infrared sensor in an outdoor camera, a timer 10 is controlled to start timing at the moment when the heating component 70 reaches the preset position, the outdoor camera is waited to wake up and shoot a timing time image displayed by the timer 10 when sensing the heating component 70, a timing time image shot by the outdoor camera is acquired, the triggering speed time of the outdoor camera is determined according to the timing time, the triggering speed time of the outdoor camera is controlled to be displayed, and therefore a user can analyze the technical index of the outdoor camera through the displayed triggering speed time of the outdoor camera. According to the outdoor camera detection device, the control method of the outdoor camera detection device is designed, so that the detection precision of the outdoor camera is improved.

In this embodiment, referring to fig. 4, the heat generating component 70 reaches a preset position that can be sensed by the pyroelectric infrared sensor of the outdoor camera, specifically, the heat generating component 70 reaches a preset window 60 that can be sensed by the pyroelectric infrared sensor of the outdoor camera and contacts one end of the preset window 60.

It should be understood that the conditions for the pyroelectric infrared sensor PIR in the outdoor camera to sense the heat source are: the temperature sensed by the pyroelectric infrared sensor PIR and the temperature which is not sensed have a larger temperature difference, and the temperature of the heating source can reach 37 ℃ or more. Accordingly, the outdoor camera inspection device is provided with a heat generating component 70 for providing heat source induction for the outdoor camera, and is provided with a preset position for placing the heat generating component 70. In order that the pyroelectric infrared sensor PIR can sense the heat energy of the heat generating element 70, a preset position for placing the heat generating element 70 is set in a window shape, so that the heat generating element 70 placed in the window can be exposed to the external environment, and the preset position in the embodiment is also called as a preset window 60. When the heating element 70 reaches the preset window 60 and contacts or collides with one end of the preset window 60, not only the outdoor camera is awakened to start working, but also the timer 10 is triggered to start timing at the same time, so that the corresponding timing time is displayed.

In this embodiment, referring to fig. 3 and 4, before the step S100, the method further includes:

and S400, when the outdoor camera detection device acquires the power-on instruction, the heating component 70 is controlled to generate heat.

It will be appreciated that the power-on command refers to a command received by the processor 50 when the outdoor camera detection device is connected to a power source. In practical application, after the user powers on the outdoor camera detection device, the internal processor 50 receives the power-on command and starts to work to control the heating component 70 to generate heat. To maintain stable heat generation of the heat source, the heat generating component 70 is in a continuously heated state, and the heat generating component 70 is not stopped until the outdoor camera detection device is powered off or not started.

In this embodiment, referring to fig. 3 and 4, the step S100 specifically includes:

and S110, when the outdoor camera detection device acquires a first instruction, controlling the driving assembly 40 to work so that the driving assembly 40 drives the heating assembly 70 to descend until the heating assembly 70 reaches a preset window 60 which can be sensed by the pyroelectric infrared sensor of the outdoor camera.

It will be appreciated that the first instruction refers to an instruction received by the processor 50 when the user triggers the outdoor camera detection apparatus. In practical application, after the outdoor camera detection device is powered on, the user triggers the outdoor camera detection device, and the internal processor 50 receives the first instruction and controls the driving assembly 40 to start moving, so that the driving assembly 40 drives the heating assembly 70 to do rapid descending movement until the heating assembly 70 descends from the shielding position to the preset position. In addition, when the user triggers the outdoor camera detection device again, the instruction received by the internal processor 50 is a second instruction, for example, when the heating component 70 is at the preset position, the user triggers the outdoor camera detection device again, the internal processor 50 receives the second instruction and drives the component 40 to start moving, so that the driving component 40 drives the heating component 70 to do rapid ascending movement until the heating component 70 returns from the preset position to the shielding position.

In this embodiment, referring to fig. 3 and 4, the step S200 specifically includes:

and S210, when the heating component 70 reaches a preset position sensed by the pyroelectric infrared sensor in the outdoor camera, triggering the limit switch 20 to control the timer 10 to start timing, and displaying corresponding timing time.

It should be understood that the limit switch 20 is also called a position switch, and uses the collision of the moving parts of the production machine to make the contact act to switch on or off the control circuit, so as to achieve a certain control purpose. In this embodiment, the limit switch 20 is disposed in the preset position, so that the heating component 70 reaches the preset position to trigger the limit switch 20 to control the timer 10 to start working. In practical application, after the outdoor camera detection device is triggered, the driving assembly 40 drives the heating assembly 70 to perform a rapid descending motion until the heating assembly 70 contacts/collides with a preset position which can be sensed by the pyroelectric infrared sensor of the outdoor camera, that is, the heating assembly 70 contacts or collides with the contact position of the limit switch 20, the limit switch 20 is opened to control the timer 10 connected with the limit switch to start working, so that the triggering speed time of the outdoor camera is counted, and the corresponding counting time is displayed.

In this embodiment, referring to fig. 3 and 4, the step S300 specifically includes:

the display time of the timer 10 shot by the outdoor camera is acquired, so that the trigger speed time of the outdoor camera is determined according to the timing time displayed by the timer 10 and is output to the display component for shooting time display.

It can be understood that when the outdoor camera is awakened and captures a time-counting time image displayed by the timer 10, the outdoor camera detecting device acquires the time-counting time image of the timer 10, determines the trigger speed time of the outdoor camera according to the time-counting time of the timer 10, and controls and displays the trigger speed time of the outdoor camera, so that the user can analyze the technical index of the outdoor camera through the displayed trigger speed time of the outdoor camera.

The invention also provides an outdoor camera detection device, which comprises a control method of the outdoor camera detection device and:

a housing provided with a window; the method comprises the steps of,

a memory, a processor 50, on which a detection device control program is stored, which when executed by the processor 50 implements the steps of the control method of the outdoor camera detection device as described above.

It should be understood that, referring to fig. 3 and 4, the triggering speed time of the outdoor camera reflects the height of the technical index of the outdoor camera, which can be understood that the time of the pyroelectric infrared sensor PIR of the outdoor camera sensing the heat source has a great influence on the shooting efficiency of the outdoor camera, so that the triggering speed time of the outdoor camera can be indirectly determined by accurately detecting the triggering time of the pyroelectric infrared sensor PIR of the outdoor camera, thereby further confirming the technical index of the camera. Therefore, the outdoor camera detection device in this embodiment further includes a memory and a processor 50, and the processor 50 in the detection device controls the heating component 70 to generate heat, and controls the driving component 40 to drive the heating component 70 to move, so that the outdoor camera senses the heating component 70, and simultaneously records the sensing time of the outdoor camera, thereby realizing detection of technical indexes of the outdoor camera. The exterior of the outdoor camera detection device is provided with a casing, and the casing is provided with a window, the window position of the casing is the position of the preset window 60 mentioned in the foregoing, and the preset window 60 can enable the heating component 70 to be exposed to the external environment so as to provide a heating source for the outdoor camera.

In this embodiment, referring to fig. 3 and 4, the outdoor camera detection apparatus includes:

a drive assembly 40 disposed within the housing;

the heating component 70 is arranged in the shell and corresponds to the window;

the heating component 70 and the driving component 40 are respectively and electrically connected with the control end of the processor 50;

the processor 50 is configured to control the heat generating component 70 to work so as to generate heat energy, and control the driving component 40 to drive the heat generating component 70 to perform ascending/descending motion.

It can be understood that the outdoor camera detection device is provided with a driving component 40 for ascending/descending movement when the outdoor camera detection device is triggered, and the driving component 40 is provided with a heating component 70, and the driving component 40 drives the heating component 70 to ascend/descend during the movement. In practice, the user powers on the outdoor camera detection device and the processor 50 controls the heat generating component 70 to generate heat energy. At the same time, the user triggers the outdoor camera detection device, and the processor 50 controls the driving assembly 40 to perform ascending/descending movement, so as to drive the heating assembly 70 to descend to the preset position/ascend back to the shielding position.

Further, referring to fig. 3, the heat generating component 70 includes a temperature controller 72 and a heat generating member 71, and the temperature controller 72 is connected to the heat generating member 71;

the temperature controller 72 is configured to control the heat generating element 71 to generate heat energy.

Alternatively, the temperature controller 72 may be implemented using a temperature control sensor. For example, after the user powers on the outdoor camera detection device, the processor 50 controls the heat generating component 70 to start operating, that is, the processor 50 controls the temperature control sensor inside the heat generating component 70 to start operating, so that the temperature control sensor controls the heat generating component 71 to generate constant heat energy in a PID temperature control manner. When the heating element 70 is driven to the preset window 60, the heat energy generated by the heating element 71 can be radiated to the external environment through the preset window 60, and the outdoor camera senses the heat energy radiated by the heating element 71, so as to realize the wake-up starting effect.

In this embodiment, referring to fig. 3 and 4, the outdoor camera detection apparatus further includes a timer 10 and a limit switch 20;

the limit switch 20 is connected with the timer 10;

the limit switch 20 is configured to control the timer 10 to start counting when triggered, and display a corresponding counting time.

It should be understood that the limit switch 20 is also called a position switch, and uses the collision of the moving parts of the production machine to make the contact act to switch on or off the control circuit, so as to achieve a certain control purpose. In this embodiment, the limit switch 20 is connected to the timer 10, so that the timer 10 is triggered to start working when the limit switch 20 is turned on. In addition, in order to synchronously control the timer 10 to start operation when the heat generating component 70 reaches the preset position, the present embodiment sets the limit switch 20 at one end of the preset window 60. Specifically, the driving assembly 40 drives the heating assembly 70 to quickly descend until the heating assembly 70 contacts/collides with one end of the preset window 60, and the heating assembly 70 contacts/collides with the contact of the limit switch 20, and the limit switch 20 is turned on to control the timer 10 to start working, so as to time the triggering speed time of the outdoor camera, and display the corresponding time.

In this embodiment, referring to fig. 3 and 4, the outdoor camera detection apparatus further includes a trigger assembly 30 disposed on the housing for outputting a trigger signal when triggered by a user.

Alternatively, the trigger assembly 30 may be implemented using a trigger button. For example, the user powers on the outdoor camera detection device, the heating component 70 starts heating, and simultaneously, the user presses the trigger button, the trigger button correspondingly outputs a trigger signal to the processor 50 in the outdoor camera detection device, and the processor 50 receives the trigger signal to control the driving component 40 to drive the heating component 70 to start ascending/descending movement, so that the effect that the user presses the button even if the heating component 70 does ascending/descending movement is achieved.

In this embodiment, referring to fig. 3 and 4, the driving assembly 40 includes:

a cylinder 41;

a solenoid valve 42 connected to the cylinder 41;

the input end of the processor 50 is electrically connected with the trigger assembly 30, and the control end of the processor 50 is electrically connected with the electromagnetic valve 42;

the processor 50 is configured to control the electromagnetic valve 42 to introduce/discharge gas to/from the cylinder 41 when receiving the trigger signal, so as to make the cylinder 41 perform a lifting/lowering motion.

It should be understood that the cylinder 41 is connected to the solenoid valve 42, and a passage for introducing/discharging gas is further provided in the cylinder 41, and the opening/closing of the passage is controlled by the energization/de-energization of the solenoid valve 42. Wherein, the gas is introduced into the cylinder 41 through the channel to increase the gas pressure, in other words, the gas is introduced into the cylinder 41 through the channel to form a pressure difference between the interior of the cylinder 41 and the exterior of the cylinder 41, and the pressure difference can deform the object or change the motion state of the object, namely, the pressure difference can form the capability, thereby realizing the effect of the ascending/descending motion of the cylinder 41.

In this embodiment, the air cylinder 41 is at the top position of the outdoor camera detection device in the stationary state, and the air cylinder 41 is at the bottom position of the outdoor camera detection device in the descending motion, wherein the bottom position of the outdoor camera detection device is the position of the preset window 60. Specifically, the user powers on the outdoor camera detection device and presses the trigger assembly 30, the trigger assembly 30 outputs a corresponding trigger signal to the processor 50, at this time, the trigger signal may be regarded as the first instruction mentioned in the foregoing, the processor 50 receives the trigger signal to control the solenoid valve 42 to be in the energized state, the solenoid valve 42 controls the opening of the channel of the air cylinder 41, and the air is introduced into the air cylinder 41 through the channel so that the air cylinder 41 is out of the air cylinder 41 to realize the effect of the descending movement of the air cylinder 41 until the air cylinder 41 reaches the bottom position of the outdoor camera detection device, that is, the air cylinder 41 reaches the preset window 60 position of the outdoor camera detection device; in addition, the user presses the trigger assembly 30 again, the trigger assembly 30 outputs a corresponding trigger signal to the processor 50, at this time, the trigger signal may be regarded as the second instruction mentioned above, and the processor 50 receives the trigger signal to control the solenoid valve 42 to be in the power-off state, the solenoid valve 42 controls the channel of the air cylinder 41 to be closed, and air cannot be introduced into the air cylinder 41 through the channel, so that a pressure difference cannot be formed between the air cylinder 41 and the outside of the air cylinder 41, at this time, no pressure causes the air cylinder 41 to move downwards, and the air cylinder 41 rises to the original position, namely, the air cylinder 41 returns to the top position of the outdoor camera detection device.

Further, referring to fig. 3, a moving slider is disposed on the cylinder 41, and the moving slider is connected to the heating component 70; the moving slide is used for driving the heating component 70 to move up/down.

It can be understood that when the electromagnetic valve 42 is in the energized state, the electromagnetic valve 42 controls the channel of the air cylinder 41 to be opened, the air is introduced into the air cylinder 41 through the channel so that the air cylinder 41 is out of the air cylinder 41, the pressure difference forming force drives the moving slide block to drive the heating component 70 to slide downwards, so that the heating component 70 slides downwards to the bottom position of the outdoor camera detection device, namely slides downwards to the preset window 60 position, and the outdoor camera senses the heat energy radiated by the heating component 70; when the electromagnetic valve 42 is in the power-off state, the electromagnetic valve 42 controls the channel of the air cylinder 41 to be closed, the body cannot be led into the air cylinder 41 through the channel, so that a pressure difference cannot be formed between the inside of the air cylinder 41 and the outside of the air cylinder 41, and at the moment, no pressure is generated to enable the moving sliding block to slide downwards, so that the moving sliding block drives the heating component 70 to slide upwards, and the heating component 70 returns to the top position of the outdoor camera detection device. In the process of sliding upwards, the heating component 70 moves from the position of the preset window 60 to the shielding position, and the outdoor camera cannot sense heat energy through the preset window 60, namely enters the sleep mode.

In this embodiment, the outdoor camera detection apparatus includes a display component, the display component is electrically connected to the processor 50, and the processor 50 is electrically connected to the outdoor camera;

the processor 50 is configured to control the display module to display image information captured by the outdoor camera.

Alternatively, the display assembly may be implemented using an LED display screen and a liquid crystal display screen.

In this embodiment, the LED display screen is taken as an example to expand and explain, specifically, when the outdoor camera shoots a timing time image displayed by the timer 10, the processor 50 acquires the timing time image of the timer 10, determines the triggering speed time of the outdoor camera according to the timing time of the timer 10, and meanwhile, the processor 50 controls the LED display screen to display the image shot by the outdoor camera, for example, the triggering speed time of the outdoor camera is 0.5 second image, the triggering speed time of the outdoor camera is 1.2 seconds image, the triggering speed time of the outdoor camera is 0.8 second image, and the user can analyze the technical index of the outdoor camera according to the image displayed by the LED display screen.

The foregoing description of the preferred embodiments of the present invention should not be construed as limiting the scope of the invention, but rather should be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the following description and drawings or any application directly or indirectly to other relevant art(s).

Claims (10)

1. A control method of an outdoor camera detection apparatus including a driving assembly for driving a heating assembly to move and a timer for counting a trigger speed time of the outdoor camera, comprising the steps of:

s100, when a first instruction is acquired, controlling the driving assembly to work so that the driving assembly drives the heating assembly to move until the heating assembly reaches a preset position which can be sensed by a pyroelectric infrared sensor of an outdoor camera;

s200, controlling the timer to start timing and displaying corresponding timing time;

s300, acquiring timer display image information shot by the outdoor camera, determining trigger speed time of the outdoor camera according to the image information, and prompting.

2. The method of claim 1, wherein the heating element reaching a predetermined position sensed by the pyroelectric infrared sensor of the outdoor camera is the heating element reaching a predetermined window sensed by the pyroelectric infrared sensor of the outdoor camera and contacting one end of the predetermined window.

3. The method for controlling an outdoor camera inspection device according to claim 1, further comprising, prior to the step S100:

and S400, when the outdoor camera detection device acquires the power-on instruction, controlling the heating component to generate heat.

4. A control method of an outdoor camera inspection device according to claim 1,

the step S100 specifically includes:

and S110, when the outdoor camera detection device acquires a first instruction, controlling the driving assembly to work, so that the driving assembly drives the heating assembly to descend until the heating assembly reaches a preset window which can be sensed by the pyroelectric infrared sensor of the outdoor camera.

5. The method of claim 1, wherein the step S200 is specifically:

and S210, triggering a limit switch to control the timer to start timing when the heating component reaches a preset position sensed by the pyroelectric infrared sensor in the outdoor camera, and displaying corresponding timing time.

6. The method for controlling an outdoor camera detection apparatus according to claim 1, wherein the step S300 specifically includes:

and acquiring the timer display time of the outdoor camera shooting, determining the trigger speed time of the outdoor camera according to the timer display time, and outputting the trigger speed time to a display assembly to display the shooting time.

7. An outdoor camera detection device is characterized by comprising a control method of the outdoor camera detection device and:

a housing provided with a window; the method comprises the steps of,

a memory, a processor, on which a detection device control program is stored, which when executed by the processor, implements the steps of the control method of an outdoor camera detection device according to any one of claims 1 to 6.

8. The outdoor camera inspection device of claim 7, wherein the outdoor camera inspection device comprises:

the driving assembly is arranged in the shell;

the heating component is arranged in the shell and corresponds to the window;

the heating component and the driving component are respectively and electrically connected with the control end of the processor;

the device comprises a timer and a limit switch, wherein the limit switch is connected with the timer;

the limit switch is used for controlling the timer to start timing when triggered and displaying corresponding timing time;

the processor is electrically connected with the display assembly and the outdoor camera respectively;

the processor is used for controlling the heating component to work so as to generate heat energy and controlling the driving component to drive the heating component to do ascending/descending movement; and controlling the display component to display the image information shot by the outdoor camera.

9. The outdoor camera inspection device of claim 7, further comprising a trigger assembly disposed on the housing for outputting a trigger signal when triggered by a user.

10. The outdoor camera inspection device of claim 9, wherein the drive assembly comprises:

a cylinder;

the electromagnetic valve is connected with the air cylinder;

the input end of the processor is electrically connected with the trigger assembly, and the control end of the processor is electrically connected with the electromagnetic valve;

and the processor is used for controlling the electromagnetic valve to lead in/out gas to the cylinder when receiving the trigger signal so as to enable the cylinder to do ascending/descending movement.

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