CN210401976U - Cloud platform camera - Google Patents

Abstract

The present disclosure provides a pan/tilt head camera having a body, a rotatable pan/tilt head, and a camera, wherein the body has a pan/tilt head holding portion for holding the pan/tilt head stable, the pan/tilt head is rotatably mounted to the pan/tilt head holding portion of the body by an axial driver, and the camera is mounted to the pan/tilt head and is rotatable together with the pan/tilt head; the fuselage still has display screen and touch-control part, the display screen is used for showing the content that the camera was shot, touch-control part includes first touch-control part, first touch-control part is located on the position outside the display screen, and is used for controlling the motion of cloud platform and/or the operating condition of camera.

Description

Cloud platform camera

Technical Field

The present disclosure relates to a pan-tilt and particularly to a pan-tilt camera.

Background

With the popularity of network videos, the portable pan-tilt camera can be widely applied because the portable pan-tilt camera can ensure stable shooting in the motion process. At present, in order to facilitate a user to control a pan/tilt head of a portable pan/tilt camera, an external physical control rod is required, and the external physical control rod has the advantages of large volume, high cost, easy loss and reduced portability and reliability.

Disclosure of Invention

This disclosure provides this summary in order to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

In order to solve one of the above technical problems, an embodiment of the present disclosure provides a pan/tilt camera, which adopts the following technical scheme:

a pan/tilt head camera having a body, a rotatable pan/tilt head, and a camera, wherein the body has a pan/tilt head holding portion for holding the pan/tilt head stable, the pan/tilt head is rotatably mounted to the pan/tilt head holding portion of the body by an axial drive, and the camera is mounted to the pan/tilt head and is rotatable together with the pan/tilt head; the fuselage still has display screen and touch-control part, the display screen is used for showing the content that the camera was shot, touch-control part includes first touch-control part, first touch-control part is located on the position outside the display screen, and is used for controlling the motion of cloud platform and/or the operating condition of camera. .

According to the technical scheme disclosed by the disclosure, compared with the prior art, the console camera controlled by the touch pad provided by the disclosure has the advantages of small volume, high reliability, convenience in operation and carrying and better user experience.

Drawings

Fig. 1 is a schematic diagram of a pan/tilt head camera controlled by a touch panel according to an embodiment of the present disclosure.

Fig. 2 is a schematic diagram of a pan/tilt head camera controlled by a touch panel according to another embodiment of the disclosure.

Fig. 3 is a schematic diagram of the chip arrangement of the control panel and the display panel in the present disclosure.

Fig. 4 is a schematic diagram of the chip arrangement of the control panel and the display panel in the present disclosure.

Detailed Description

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. Throughout the drawings, the same or similar reference numbers refer to the same or similar elements. It should be understood that the drawings are schematic and that elements and features are not necessarily drawn to scale.

In the prior art, some cameras of the pan-tilt camera are controlled by mechanical buttons, so that the equipment volume is inevitably increased. The external physical control rod has large volume, high cost and easy loss; the built-in physical control rod has short service life and large volume, and can reduce portability and reliability. The user experience is poor in the above prior art.

The cloud platform camera provided by the embodiment of the disclosure comprises a body, a rotatable cloud platform and a camera, wherein the body is provided with a cloud platform holding part for holding the cloud platform stable, the cloud platform is rotatably arranged on the cloud platform holding part of the body through an axial driver, and the camera is arranged on the cloud platform and can rotate along with the cloud platform; the fuselage still has display screen and touch-control part, the display screen is used for showing the content that the camera was shot, touch-control part includes first touch-control part, first touch-control part is located on the position outside the display screen, and is used for controlling the motion of cloud platform and/or the operating condition of camera.

Fig. 1 is a schematic diagram of a pan/tilt head camera controlled by a touch panel according to an embodiment of the present disclosure. Illustratively, as shown in fig. 1, the pan/tilt head camera has a body 103, a rotatable electrically controlled pan/tilt head 102 composed of a plurality of axial drivers, three-directional axial drivers (motors) whose axial drivers are X, Y, Z in fig. 1, 1021, 1022, and 1023, and a phase having a lens module 101, wherein the body has a display screen 1031, a touch area (first touch member) 1032, and a battery, and the body has a pan/tilt head holding portion for holding the pan/tilt head stable (the pan/tilt head holding portion is integrated with the body in fig. 1), the electrically controlled pan/tilt head 102 is rotatably mounted to the pan/tilt head holding portion of the body by the axial drivers, the camera 101 is mounted to the electrically controlled pan/tilt head 102, and rotates together with the pan/tilt head, and the display screen at the body displays contents shot.

The touch area 1032 of the body is independent of the display screen and is used for controlling the motion of the holder. In fig. 1, the pan/tilt head holding portion 103 of the pan/tilt head camera is a hand-held portion, the camera portion is mounted to the hand-held portion through a three-axis connecting rod, and the pan/tilt head camera drives the pan/tilt head to rotate by controlling three axial drivers 1021, 1022, 1023, so as to control the movement of the camera 101, i.e., the camera is mounted to the pan/tilt head and can rotate with the pan/tilt head, where the rotation can include the actions of the several axial drivers, translation, pitch, and roll. Through the rotation of control camera, can adjust the camera to suitable shooting angle.

In this embodiment, the touch member has a first touch member located outside the display screen, and the first touch member is configured to control the motion of the pan/tilt head and/or the operating state of the camera. In fig. 1, the display screen is in the upper half of the touch area 1032, the second touch part 1031 of the display screen and the touch area (first touch part) 1032 as a whole are a touch panel, the upper half (second touch part 1031) of the touch panel is used as the touch part of the display screen, and the lower half (first touch part 1032) of the touch panel is used for controlling the touch area of the pan/tilt/camera, that is, for controlling the motion of the pan/tilt/camera and/or the operating state of the camera. That is, in this embodiment, the touch area and the display screen share one touch panel (touch section) including a touch detection section and a touch information processor; the touch detection component is positioned on the body and generates a touch signal based on the received touch operation; the touch information processor is used for receiving the touch signal, generating a control signal according to the touch signal, and sending the control signal to the holder or the camera, wherein the control signal is used for controlling the motion of the holder and/or the working state of the camera.

The operation of the touch panel (second touch member 1031) at the display screen is basically to perform setting of the camera and viewing of the shot content in a non-shot state. The first touch part 1032 can control the motion of the pan/tilt head and/or the working state of the camera in the shooting state, for example, control the operations of several axes of pan, tilt, and roll of the pan/tilt head, which ensures that the camera can be aimed at the target to be shot.

In an embodiment, when the camera is in the shooting state, the first touch part is controlled to be in the activated state and the second touch part is controlled to be in the inactivated state, so that misoperation is avoided, and power consumption can be saved.

In an embodiment, when the camera is in a powered-on and non-shooting state, the second touch component may be controlled to be in an activated state, and at this time, the first touch component may be in an activated state or in a non-activated state, and the second touch component is configured to receive a touch operation performed on display content on the display screen and perform corresponding processing, such as a picture processing operation, a video playing operation, and the like, according to the touch operation.

In an embodiment, when the camera is in a shooting state, the first touch component may be controlled to be in a first active state, when the camera is in a power-on and non-shooting state, the first touch component may be controlled to be in a second active state, when the first touch component is in the first active state, the motion of the pan/tilt head and/or the working state of the camera may be controlled according to the received touch operation, and when the first touch component is in the second active state, the output of the display content on the display screen may be controlled according to the received touch operation, for example, the processing such as picture enlargement or reduction may be performed, and the playing operation such as video playing or pause may be performed.

The display screen is used for displaying the image information shot by the camera. The common touch panel covers the display panel of the display screen. That is, the Display panel may be configured to Display by providing a Liquid Crystal Display (LCD), an Organic Light-Emitting Diode (OLED), or the like at an upper portion of the inside of the touch panel, that is, at a Display screen position. In a pan-tilt camera, the display screen is provided on the body, in which case the display screen is usually small.

In addition, in the related art, a small touch slider exists on one side of the display screen, the whole display screen is small, the small touch slider is not favorable for being exhaled, and due to the fact that the display interface is overlapped with the touch slider, the preview picture is shielded, mistaken touch is caused, and the like during operation. In the method, the touch area is arranged at a position outside the display screen, for example, under the display screen, when a user shoots and needs to control the cloud platform, the finger or other objects can not shield the display screen, preview control can not be influenced, and in the control process of the related art, the finger can shield the display screen, and the preview can not be effectively performed due to the fact that the display screen is very small, but after the first touch component used for controlling the movement of the cloud platform is separated from the second touch component at the display screen, the control and the preview are not interfered with each other.

In addition, in an embodiment of the present disclosure, the touch area (the first touch component) and the second touch component at the display screen may be formed by one touch pad, and the touch pad and the display screen share one touch panel, so that materials can be saved and costs can be reduced.

In an embodiment, the touch area may be located at a lower portion of the display panel. The touch part may include a touch detection part and a touch information processor; the touch detection component is used for detecting touch information such as a user touch position or a moving distance and sending the received touch information to the touch information processor; the touch information processor converts the touch information received from the touch detection part into commands and controls the corresponding driver to control the movement of the holder.

The touch information processor determines the position, force, speed and/or direction of touch operation occurring on the first touch component based on the touch signal, and controls the motion of the holder and/or the working state of the camera according to the position, force, speed and/or direction of the touch operation.

Specifically, the touch detection component may collect a touch operation performed by a user (for example, a user operates a touch panel with any suitable object or accessory such as a finger or a stylus), detect a touch orientation of the user, generate a signal for detecting the touch operation, and transmit the signal to a touch information processor (the touch information processor may also be referred to as a touch screen controller); the touch information processor receives touch information from the touch detection device and converts the touch information into a specific command to control the movement of the holder. That is, the touch information processor receives a touch signal from the touch detection component, performs preset processing on the touch signal, generates a control signal according to the touch signal after the preset processing, and sends the control signal to the pan/tilt head or the camera.

In an embodiment, the touch information processor may be an IC circuit, and may determine whether a touch operation occurs and a position, a force, a direction, and the like of the touch operation according to a signal detected by the touch detection component, and further generate a control signal for controlling the pan/tilt/camera. In another embodiment, the touch information processor may include a touch IC circuit for performing touch signal processing, and a main control circuit, the touch IC circuit is configured to process an analog signal detected by the touch detection unit and convert the analog signal into a digital signal, and may further perform processing related to touch signal identification on the digital signal, such as identifying whether the digital signal is a pressing operation or a false triggering operation, and send a processing result to the touch circuit, and the main control circuit generates a control signal according to the processing result and sends the control signal to the pan/tilt head or the camera.

In an embodiment, because the pan/tilt/zoom camera has a higher requirement on control reliability, the pan/tilt camera controlled by the touch pad of the present disclosure has a function of preventing erroneous touch, and can prevent erroneous touch of the touch area, and the pan/tilt camera receives a touch event on the touch area (for example, receives a touch event through a touch component on the touch area); judging whether the touch event occurs in the edge area of the touch area; if the touch event occurs in the edge area of the touch area, acquiring change data generated in the touch area when the touch event is touched; judging whether the touch event is a false trigger event or not according to the change data of the touch screen; if the touch event is a false triggering event, the touch event is not reported, for example, when the touch information processor includes a touch IC circuit and a main control circuit, if the touch IC circuit recognizes that the touch event is the false triggering event, the touch information processor does not send a control signal to the main control circuit.

In addition, as shown in fig. 3, the touch area (i.e. the first touch part) 3032 and the second touch part 3031 at the display screen can be implemented as two independent parts respectively, the detection signals collected at the touch area 1032 and the touch part 1031 of the display screen are transmitted to a touch IC (part of a touch information processor) 105, which processes the analog signals detected by the touch detection unit, converts the analog signals into digital signals, and further processes the signals related to touch signal recognition, for example, whether the pressing operation is performed or not, whether the false triggering operation is performed or not, and the like, to obtain a touch signal that can be recognized by the main control circuit, and sends the touch signal to the main control circuit 106 (which may be regarded as another part of the touch information processor), and the main control circuit 106 generates a control signal according to the touch signal and sends the control signal to the axial driver or the camera. In the embodiment, a plurality of touch parts share one touch IC circuit, so that the material is saved, the cost is reduced, and the volume of the pan-tilt camera can be reduced.

The cloud platform camera that this disclosure relates to is used for handheld removal to shoot mostly. For the convenience of control, the touch control part in the handheld part of this disclosure is in the comfortable area of thumb operation when hand held state. I.e. convenient for thumb operation of the holding hand. In order to facilitate the operation and control of one hand, when the user vertically holds the handheld part of the pan/tilt camera, the center of the touch area is in a position parallel to the root of the thumb of the holding hand.

In addition, in one embodiment, when the user holds the hand-held portion vertically, the center of the touch area is located in an area 2-5cm above the root of the thumb of the holding hand.

The touch control area is arranged in a comfortable area operated by the thumb holding the pan-tilt camera, so that the use experience of a user can be improved.

Fig. 3 is a schematic diagram of a pan/tilt head camera controlled by a touch panel according to another embodiment of the disclosure. In fig. 3, no further description is given for the same or similar functions as in fig. 1. In fig. 3, a touch area (a first touch detection unit) is completely independent from a display screen, and a second touch detection unit is provided on the display screen, and the first touch detection unit and the second touch detection unit do not share a touch panel. In this case, when the user touches the touch area, the user does not need to distinguish the touch area, and the touch operation is easier to perform. That is, the touch sensing part includes a first touch sensing part and a second touch sensing part, the first touch sensing part and the second touch sensing part are sensing parts separated from each other, the second touch sensing part covers the display screen and may form a part of the display screen, that is, as a touch part of the display screen, so that the display screen becomes a touch screen, and the first touch sensing part and the second touch sensing part are located at different positions on the body.

In addition, the positional relationship between the touch area and the display screen in fig. 1 and 3 is merely an example, and the touch area and the display screen do not have to be vertically provided, and may be provided separately. For convenience of manipulation, the first touch part is generally located below the display screen. The position of the lower edge of the first touch component on the camera body is not lower than the lower edge which can be touched by a thumb when a user uses the pan-tilt camera in a handheld mode. The vertical distance between the upper edge and the lower edge of the first touch part is 1.5 cm to 6 cm.

In an embodiment, the first touch member has a virtual key thereon, and the virtual key is used for controlling the operating state of the camera and/or the motion of the pan/tilt head.

In an embodiment, the touch area may be made of plastic or resin or other materials with better touch feeling, so that the touch area is convenient for a user to distinguish, and the comfort and the user experience of the user can be improved during touch operation.

The touch control part comprises a touch control detection part and a touch control information processor; the touch detection component is positioned on the body and generates a touch signal based on the received touch operation; the touch information processor is used for receiving the touch signal, generating a control signal according to the touch signal, and sending the control signal to the holder or the camera, wherein the control signal is used for controlling the motion of the holder and/or the working state of the camera. The touch information processor determines the position, force, speed and/or direction of touch operation occurring on the first touch component based on the touch signal, and controls the motion of the holder and/or the working state of the camera according to the position, force, speed and/or direction of the touch operation. The first touch detection component for controlling the movement of the pan/tilt head in fig. 3 and the second touch detection component at the display screen may also share one control chip as shown in fig. 4. The touch area (first touch detection unit) 3032 is provided separately from the second touch detection unit 3031 on the display screen, but as shown in fig. 4, as in the above embodiment, the touch area also shares one touch IC (touch information processor) 305, which is used to process the analog signal detected by the touch detection unit and convert the analog signal into a digital signal, and may further perform some processing related to touch signal recognition, such as recognizing whether the touch area is pressed or not, whether the touch area is false-triggered or not, and then send the processing result to the main control circuit 306, and the main control circuit 306 generates a control signal according to the processing result and sends the control signal to the axial driver or the camera. That is, the first touch detection component and the second touch detection component are connected to the same touch information processor, and both the touch signal detected by the first touch detection component and the signal detected by the second touch detection component are sent to the same touch information processor for processing. Therefore, the material is saved, the cost is reduced, and the volume of the pan-tilt camera can be reduced. Of course, the first touch detection unit and the second touch detection unit may use different touch ICs.

In addition, the touch IC (touch information processor) and the main control circuit in fig. 2 and 4 may be integrated in one chip.

In addition, a physical key can be arranged beside the touch area, and the physical key is used for controlling the working state of the camera and/or the motion of the holder. And reliable operation of a user is facilitated.

In one embodiment, the pan-tilt camera has a body, a rotatable pan-tilt, and a camera, wherein the body has a pan-tilt holding portion for holding the pan-tilt stable, the pan-tilt is rotatably mounted to the pan-tilt holding portion of the body by an axial drive, and the camera is mounted to the pan-tilt and rotatable with the pan-tilt; the fuselage still has display screen and touch-control part, the display screen is used for showing the content that the camera was shot, touch-control part includes first touch-control part, first touch-control part is located on the position outside the display screen, and is used for controlling the motion of cloud platform and/or the operating condition of camera.

In an embodiment, the touch panel-controlled pan/tilt camera determines, at the touch information processor, a position, a force, a speed, and/or a direction of a touch operation occurring on the first touch member based on the touch signal, and controls a motion of the pan/tilt and/or a working state of the camera according to the position, the force, the speed, and/or the direction of the touch operation.

In an embodiment, in the pan/tilt head camera controlled by a touch panel of the present disclosure, the touch information processor receives a touch signal from the touch detection component, performs a preset process on the touch signal, generates a control signal according to the touch signal after the preset process, and sends the control signal to the pan/tilt head or the camera.

In an embodiment, in the pan/tilt/zoom lens of the present disclosure, the touch sensing component includes a touch sensing component, a first portion of the touch sensing component covers the display screen to form a portion of the display screen, and a second portion of the touch sensing component includes the first touch sensing component.

In an embodiment, in the pan/tilt/zoom camera of the present disclosure, the touch member includes a first touch detection member and a second touch detection member, the first touch detection member and the second touch detection member are detection members separated from each other, the second touch detection member covers the display screen and forms a part of the display screen, and the first touch detection member and the second touch detection member are located at different positions on the body.

In an embodiment, in the pan/tilt/zoom camera of the present disclosure, the touch component includes a touch information processor, the first touch detection component and the second touch detection component are connected to a same touch information processor, and both a touch signal detected by the first touch detection component and a signal detected by the second touch detection component are sent to the same touch information processor for processing.

In an embodiment, with respect to the pan-tilt camera of the present disclosure, the first touch member is located below the display screen.

In an embodiment, with respect to the pan/tilt/zoom lens of the present disclosure, a position of the lower edge of the first touch member on the main body is not lower than a lower edge that can be touched by a thumb of a user when the user uses the pan/tilt/zoom lens in a handheld manner.

In an embodiment, with respect to the pan-tilt camera of the present disclosure, a vertical distance between upper and lower edges of the first touch member is between 1.5 cm and 6 cm.

In an embodiment, with respect to the pan-tilt camera of the present disclosure, the surface material of the touch member is different from or the same as the surface material of the display screen.

In an embodiment, regarding the pan/tilt/zoom camera of the present disclosure, a physical button is disposed on the body, and the physical button is used for controlling the operating state of the camera and/or the motion of the pan/tilt/zoom.

In an embodiment, regarding the pan/tilt/zoom camera of the present disclosure, the physical key is disposed on the same surface of the body where the first touch member is located, or disposed on a left or right surface of the body adjacent to the surface of the body where the first touch member is located, or on an opposite surface of the body.

In an embodiment, regarding the pan/tilt/zoom lens of the present disclosure, the physical key is disposed between the first touch member and the display screen.

In an embodiment, regarding the pan/tilt/zoom camera of the present disclosure, the first touch member has a virtual key thereon, and the virtual key is used for controlling the operating state of the camera and/or the motion of the pan/tilt/zoom.

In an embodiment, with respect to the pan/tilt/zoom camera of the present disclosure, the first touch detection component is used for controlling the motion of the pan/tilt/zoom in a shooting state, and the second touch detection component is used for performing camera setting and viewing of shooting contents.

The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the disclosure herein is not limited to the particular combination of features described above, but also encompasses other embodiments in which any combination of the features described above or their equivalents does not depart from the spirit of the disclosure. For example, the above features and (but not limited to) the features disclosed in this disclosure having similar functions are replaced with each other to form the technical solution.

Further, while operations are depicted in a particular order, this should not be understood as requiring that such operations be performed in the particular order shown or in sequential order. Under certain circumstances, multitasking and parallel processing may be advantageous. Likewise, while several specific implementation details are included in the above discussion, these should not be construed as limitations on the scope of the disclosure. Certain features that are described in the context of separate embodiments can also be implemented in combination in a single embodiment. Conversely, various features that are described in the context of a single embodiment can also be implemented in multiple embodiments separately or in any suitable subcombination.

Although the subject matter has been described in language specific to structural features and/or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims.

Claims (17)

1. A pan-tilt camera is characterized in that,

the holder camera is provided with a body, a rotatable holder and a camera, wherein the body is provided with a holder holding part for holding the holder stable, the holder is rotatably arranged on the holder holding part of the body through an axial driver, and the camera is arranged on the holder and can rotate along with the holder;

the fuselage still has display screen and touch-control part, the display screen is used for showing the content that the camera was shot, touch-control part includes first touch-control part, first touch-control part is located on the position outside the display screen, and is used for controlling the motion of cloud platform and/or the operating condition of camera.

2. The pan-tilt camera according to claim 1, wherein the touch member comprises a touch detection member and a touch information processor;

the touch detection component is positioned on the body and generates a touch signal based on the received touch operation;

the touch information processor is used for receiving the touch signal, generating a control signal according to the touch signal, and sending the control signal to the holder or the camera, wherein the control signal is used for controlling the motion of the holder and/or the working state of the camera.

3. Pan-tilt camera according to claim 2,

the touch information processor determines the position, force, speed and/or direction of touch operation occurring on the first touch component based on the touch signal, and controls the motion of the holder and/or the working state of the camera according to the position, force, speed and/or direction of the touch operation.

4. The pan-tilt camera according to claim 2, wherein the touch information processor receives the touch signal from the touch detection unit, performs a preset process on the touch signal, generates a control signal according to the touch signal after the preset process, and sends the control signal to the pan-tilt or the camera.

5. The pan-tilt camera according to claim 1, wherein the touch-sensing device comprises a touch-sensing device, wherein a first portion of the touch-sensing device covers the display screen, and a second portion of the touch-sensing device comprises the first touch-sensing device.

6. The pan-tilt camera according to claim 1, wherein the touch member comprises a first touch detection member and a second touch detection member, the first touch detection member and the second touch detection member are detection members separated from each other, and the first touch detection member and the second touch detection member are located at different positions on the main body.

7. A pan-tilt camera according to claim 6,

the second touch detection component covers the display screen.

8. The pan-tilt camera according to claim 6, wherein the touch component comprises a touch information processor, the first touch detection component and the second touch detection component are connected to the same touch information processor, and both the touch signal detected by the first touch detection component and the touch signal detected by the second touch detection component are sent to the same touch information processor for processing.

9. The pan-tilt camera according to claim 1, wherein the first touch member is located below the display screen.

10. A pan-tilt camera according to claim 1, wherein the lower edge of the first touch member is not lower on the body than the lower edge that the thumb can reach when the pan-tilt camera is used by a user in a hand-held manner.

11. The pan-tilt camera according to claim 1, wherein a vertical distance between upper and lower edges of the first touch member is between 1.5 cm and 6 cm.

12. The pan-tilt camera according to claim 1, wherein a surface material of the touch member is different from or the same as a surface material of the display screen.

13. A pan/tilt head camera according to claim 1, wherein physical keys are provided on the body for controlling the operating state of the camera and/or the movement of the pan/tilt head.

14. The pan-tilt camera according to claim 13, wherein the physical keys are disposed on a same surface of the body where the first touch member is located, or on a left or right surface of the body adjacent to the surface of the body where the first touch member is located, or on an opposite surface of the body.

15. The pan-tilt camera according to claim 14, wherein the physical key is disposed between the first touch member and the display screen.

16. Pan-tilt camera according to claim 5 or 6,

the first touch control component is provided with a virtual key, and the virtual key is used for controlling the working state of the camera and/or the motion of the holder.

17. Pan-tilt camera according to claim 5 or 6,

when the camera is in a shooting state, controlling the first touch control component to be in an activated state and the second touch control component to be in an inactivated state;

or when the camera is in a power-on and non-shooting state, controlling the second touch control component to be in an activated state, wherein the second touch control component is used for receiving touch control operation performed on display content on the display screen and performing corresponding processing according to the touch control operation;

or when the camera is in a shooting state, controlling the first touch control component to be in a first activation state, when the camera is in a starting and non-shooting state, controlling the first touch control component to be in a second activation state, when the first touch control component is in the first activation state, controlling the motion of the cradle head and/or the working state of the camera according to the received touch control operation, and when the first touch control component is in the second activation state, controlling the output of the display content on the display screen according to the received touch control operation.

Images