CN111901613B - Scenic spot live broadcast system based on 5G - Google Patents

Abstract

The invention discloses a 5G-based scenic spot live broadcast system.A camera is arranged in each scenic spot along a scenic spot route, and each camera is connected with a positioning module and a control module; the single live broadcast module is used for carrying out single live broadcast on one terminal device by one camera, and the unified live broadcast module is used for carrying out unified live broadcast on a plurality of terminal devices by one camera; the independent live broadcast module comprises an adjusting module and a reservation module, the adjusting module is used for adjusting the position and the focal length of the cameras, and the reservation module is used for reserving independent live broadcast of each camera and acquiring reservation waiting amount of each camera in the same time period; the user of the system can select the favorite area of the scenic spot to live, and can select the independent live broadcast and the unified live broadcast in the live broadcast process, the position and the focal length of the camera can be adjusted in the independent live broadcast process, the favorite scenery is amplified and watched, and the live broadcast watching efficiency is improved.

Description

Scenic spot live broadcast system based on 5G

Technical Field

The invention relates to a live broadcast system, in particular to a scenic spot live broadcast system based on 5G.

Background

The fifth generation mobile communication technology is the latest generation cellular mobile communication technology, and is also an extension following 4G, 3G, and 2G systems. The performance goals of 5G are high data rates, reduced latency, energy savings, reduced cost, increased system capacity, and large-scale device connectivity. 5G is combined with live broadcasting, so that a user can clearly see a larger world without going out.

For scenic spots, holiday scenic spots are usually very exploded, so that people can not enjoy sceneries only, crowd pressure can be effectively relieved by utilizing a 5G direct broadcasting system in the scenic spots, and beautiful sceneries can be better enjoyed.

But current live broadcast system all uses unmanned aerial vehicle to carry out unified live broadcast usually, perhaps carries out the live broadcast through the staff, can only be applicable to the user and unify and watch, such mode of watching can not go deep into and watch, miss the sight that oneself likes easily, and it has the live broadcast demand not necessarily all to have a large amount of users every day in the scenic spot, consequently current unified mode of broadcasting that carries on live, the sight that not only the user likes can not go deep into and watch, can only watch the live broadcast in specific time simultaneously, miss can only see the playback, the substitution is felt relatively poorly. Therefore, a 5G-based live system is urgently needed.

Disclosure of Invention

The invention aims to provide a 5G-based scenic spot live broadcast system, which is characterized in that a plurality of cameras are arranged in scenic spots of a scenic spot, a user can select the cameras at different positions in different scenic spots according to own preference to carry out individual live broadcast, the cameras can be remotely controlled in the process of individual live broadcast, the positions and the focal lengths of the cameras are adjusted, the favorite scenery can be deeply watched, and the live broadcast effect is improved. Simultaneously, this system adjusts the reservation of broadcasting directly alone according to conditions such as the number of people in scenic spot, the reservation number of broadcasting directly alone, and when the number of people is more in this sight spot or the camera of this sight spot reservation number of people alone was more, control this camera and broadcast live in unison, satisfy more many people's demand.

The purpose is realized by adopting the following technical scheme:

the system comprises a live broadcast module, a 5G communication module and terminal equipment, wherein the live broadcast module is used for acquiring video information, the 5G communication module sends the video information of the live broadcast module to the terminal equipment, the live broadcast module comprises a plurality of cameras, an individual live broadcast module and a unified live broadcast module, the cameras are arranged in each scenic spot along scenic spot tour routes, and each camera is connected with a positioning module and a control module; the single live broadcast module is used for sending the acquired video information to one terminal device, and the unified live broadcast module is used for sending the acquired video information to a plurality of terminal devices;

the single live broadcast module comprises a regulating module and an appointment module; the adjusting module is used for receiving an adjusting signal of the terminal equipment and adjusting the position and the focal length of the camera according to the adjusting signal; the reservation module is used for receiving live broadcast reservation requests of the terminal equipment to the single live broadcast module, counting and sequencing the received reservation requests and obtaining reservation waiting amount of each camera; when the reservation waiting amount of one camera is larger than a threshold value A, a reservation module closes a live broadcast reservation request of the camera, the reservation module sends a signal to a control module, and the control module opens a unified live broadcast module of the camera;

when the reservation waiting amount of one camera is smaller than or equal to a threshold value A, a reservation module receives a live broadcast reservation request of the camera, the reservation module sends a sequencing signal of the reservation request to a control module, and the control module starts a single live broadcast module for the camera according to the sequencing signal;

the unified live broadcast module comprises a counting module, after the control module starts the unified live broadcast module for one camera, the control module sends information to the counting module, and the counting module counts the number of the cameras which start the unified live broadcast module in the scenic spot according to the information sent by the control module; when the statistical number of the counting modules is larger than a threshold value B, the counting modules send signals to the reservation module and the control module, the reservation module closes the live broadcast reservation requests of all cameras in the scenery spot, and the control module sequentially opens the uniform live broadcast modules of all cameras in the scenery spot according to the tour route of the scenery spot;

and when the counting number of the counting module is less than or equal to the threshold B, the counting module counts the number of the cameras which start the unified live broadcast module in the scenic spot according to the information sent by the control module.

Furthermore, the live broadcast module of the system comprises two modes, namely a single live broadcast module of one camera to one terminal device and a unified live broadcast of one camera to a plurality of terminal devices. The camera of this system sets up along the route of sight spot in every sight spot of scenic spot, the user can select the camera in the sight spot position of interest through terminal equipment and carries out reservation alone, select the camera of individual live broadcast module through the reservation module promptly, select the back, user's accessible terminal equipment carries out the reservation of individual live broadcast module, and at the in-process of live broadcast, accessible terminal equipment triggers adjusting module, position and the focus of the camera of individual live broadcast module are controlled through adjusting module, it can enlarge and watch to meet the region of interest, and select the live broadcast region that more is fit for oneself through the position of adjustment camera, further improvement user's substitution is felt. When the reservation module makes a reservation, when the reservation waiting amount of the camera counted by the reservation module is larger than a threshold value A, the reservation module stops the reservation of the single live broadcast module of the camera, and controls the camera to start unifying the live broadcast modules through the control module.

Secondly, when in a sight spot, when the quantity of the camera that carries out the unified live broadcast is greater than threshold value B, the reservation module closes the independent live broadcast module reservation of all cameras of this sight spot to control module control all cameras in this sight spot trigger unified live broadcast module, the camera of this sight spot is unified live broadcast along the order of sight spot sight visit, the unified live broadcast of the first camera in the sight spot finishes, the second camera is unified live broadcast, finish until all unified live broadcasts in the sight spot.

This system compares with current live broadcast system, and the sight spot that this system can choose alone, and the region in the sight spot of liking carries out live broadcast module alone to at the in-process of live broadcast module alone, can adjust this camera through remote regulation, the position of adjustment camera and the focus of making a video recording, the scenery of meetting liking can enlarge the live broadcast. When the number of people of the live broadcast module is more simultaneously alone, the system stops live broadcast module alone, carries out unified live broadcast, satisfies most of users' demand to when the camera that carries out unified live broadcast in a sight spot is more, control module control camera is unified live broadcast respectively according to the tour order of sight spot, enables the user more have the sensation of being personally on the scene, improves the live broadcast result of use in scenic spot. And this system does not need the manual work to carry out unmanned aerial vehicle or the manual work carries out present live broadcast, can practice thrift the cost effectively, improves the availability factor.

Preferably, the live broadcast module further comprises a first timing module and a second timing module, the first timing module is used for recording the time for starting the separate live broadcast module by the camera, when the live broadcast time of the camera is greater than or equal to T1, the first timing module sends a signal to the control module, and the control module closes the separate live broadcast module of the camera; when the live broadcast time of the camera is less than T1, the first timing module sends a signal to the control module, and the control module starts an independent live broadcast module of the camera;

the second timing module is used for recording the time of opening the unified live broadcast module of each camera in each scenic spot along the scenic spot route in sequence, when the live broadcast time of the camera is greater than or equal to T2, the second timing module sends a signal to the control module, the control module closes the unified live broadcast module of the camera, and opens the unified live broadcast module of the next camera according to the tour route of the scenic spot; when the live broadcast time of the camera is less than T2, the second timing module sends a signal to the control module, and the control module closes the unified live broadcast module of the camera.

When a user selects a camera through the terminal equipment to carry out the single live broadcast module, the first timing module starts timing, when the time recorded by the first timing module reaches T1, the first timing module sends a signal to the control module, and the control module controls the camera to stop carrying out the live broadcast.

When all cameras in the scenic spot sequentially carry out unified live broadcasting along scenic spot routes, a first camera carries out the unified live broadcasting, a second timing module starts to time, when the recorded time reaches T2, the first camera stops live broadcasting, the second timing module is reset, the second camera starts unified live broadcasting, the second timing module restarts to time, when the recorded time reaches T2, the second camera stops unified live broadcasting, and the second timing module is reset, so that the process is repeated.

The time of the user for carrying out the single live broadcast module can be controlled through the first timing module, the single live broadcast module is not carried out without limitation, and therefore the control is more controllable, and more people can use the control. Carry out the live timing of unifying in proper order to the camera of a sight spot through second timing module, in the unified live time of a regional control to T2's size can be according to the size of the position of different cameras in this sight spot and is liked the degree by the user and set for, and the unified live time T2 of every camera can be for different values, improvement live efficiency that can further like this.

Preferably, the system further comprises a people counting module, the people counting module is used for counting the number of people entering the scenic spot, when the number of people counted by the people counting module is larger than a threshold value D, the reservation module stops reservation of the single live broadcast module, and the control module controls all cameras in the scenic spot to sequentially start unified live broadcast along scenic spot routes. The number counting module of the system comprises monitoring cameras arranged at an inlet and an outlet of the scenic spot, the monitoring cameras upload collected image information to the microprocessor module, and the microprocessor module can extract, analyze and compare faces in the images to obtain the number of personnel in the scenic spot area.

When the number of people in the scenic spot is larger than a threshold value D, in order to control the flow of people, the reservation module of the system stops reservation of the single live broadcast module, and the control module controls all cameras in the scenic spot to sequentially start unified live broadcast along the route of the scenic spot. Therefore, the terminal equipment can be used for carrying out unified live broadcast in the scenic spot to relieve the flow of people and avoid more people entering the scenic spot.

The adjusting module of this system is used for adjusting the position and the focus of camera, and is concrete, to the position of adjusting the camera, adjusting module is including the fixed disk that is used for fixed camera, and the lower extreme of fixed disk is provided with the supporting disk, is provided with circular spout on the supporting disk, and circular spout is connected with the one end of connecting rod, and the other end and the fixed disk hinged joint of connecting rod are connected with the rotary rod between fixed disk and the supporting disk, the rotary rod drives the fixed disk and camera above that uses rotary rod place straight line rotatory as the axis, and the one end of connecting rod moves on circular spout, and the rotary rod is for following the flexible telescopic link of vertical direction, and the rotary rod is through rotatory and the flexible.

When adjusting the position, when the rotary rod carries out axial rotation, the rotary rod drives the fixed disk and rotates, and the fixed disk drives the camera on it in rotatory in-process and rotates, therefore the terminal equipment accessible is rotatory at terminal control rotary rod, and then adjusts the position of camera on the horizontal direction. Through the length of adjusting the rotary rod, make its extension, the one end that the rotary rod is connected with the fixed disk drives the fixed disk tilt up, and then the fixed disk drives the camera tilt up on it, can make the position of adjusting the camera in vertical side.

When the rotating rod drives the fixed disc to move upwards, the connecting rod is hinged with the fixed disc, so that the height of the connecting end of the fixed disc and the connecting rod is kept unchanged in the extending process of the rotating rod, and the camera tilts upwards. In the rotating process of the rotating rod, one end of the connecting rod connected with the supporting disk circularly moves in the circular sliding groove on the supporting disk.

Preferably, a plurality of support rods are further connected to the support plate, and one ends of the support rods are fixedly connected with the support plate. The bracing piece is the spring beam, and at the rotatory in-process of fixed disk, the bracing piece can support the fixed disk to can cushion fixed disk and camera when adjusting.

To the focus that adjusting module adjusted the camera, it is specific, the cover is equipped with the swivel sleeve on the focusing circle on the camera lens of camera, is provided with the regulation pole with swivel sleeve gear connection on the fixed disk, and the regulation pole drives the swivel sleeve rotation through the rotation.

When the focusing adjusting device is used, the adjusting rod can be controlled to rotate through the terminal equipment, the adjusting rod is connected with the rotating sleeve gear in the rotating process, the adjusting rod can drive the rotating sleeve to axially rotate on the axis of the lens when axially rotating, and the rotating sleeve is sleeved on the focusing ring, so that the focusing ring can be driven to rotate when the rotating sleeve rotates, and the focusing can be carried out on the camera.

Specifically, the terminal equipment is provided with a horizontal rotation module, an up-down movement module and a focusing module, wherein the horizontal rotation module is used for receiving a rotation request of a user and sending the rotation request to the single live broadcast module; the up-down moving module is used for receiving an up-down moving request of a user and sending the moving request to the single live broadcast module; the focusing module is used for receiving a focusing request and sending the focusing request to the single live broadcast module;

when the single live broadcast module is started, the single live broadcast module receives a rotation request, an up-and-down movement request and a focusing request and sends the received information to the adjusting module, the adjusting module sends the received rotation information to the motor, and the motor starts to work according to the rotation information; the adjusting module sends the received up-and-down movement information to the air cylinder, and the air cylinder starts to work according to the up-and-down movement information; and the adjusting module sends the received focusing information to a focusing motor, and the focusing motor starts to work according to the focusing information.

The horizontal rotation module, the up-down moving module and the focusing module comprise operation buttons arranged on a screen of the terminal equipment, the operation buttons comprise an upper button, a lower button, a left button, a right button, an amplifying button and a reducing button, after the upper button and the lower button receive touch information, touch duration information of the upper button and the lower button is obtained and sent to the up-down moving module, the up-down moving module sends the information to an air cylinder, and the air cylinder controls the stretching duration of the rotary rod according to the obtained touch duration information; preferably, the touch duration information acquired by the air cylinder is 10 times of the duration of the movement of the rotating rod, so that the data transmission can be buffered, and the phenomenon that the rotating rod moves too fast and is inconvenient to adjust can be avoided.

In the application, the touch information is that a user touches the operation button to obtain initial touch information, when the user stops touching the operation button, the terminal touch information is obtained, and the touch duration information is the time that the user keeps time for the operation button from obtaining the initial touch information to obtaining the terminal touch information. When a user touches the upper button, the upper button receives touch information, namely initial touch information, the upper button starts timing the touch time of the upper button, when the user stops touching the upper button, the upper button receives the touch information, namely tail end touch information, the upper button module stops timing the touch time of the upper button, the upper button acquires the time from the initial touch information to the tail end touch information to obtain touch duration information, and the information is sent to the air cylinder through the up-down moving module. The touch information and the touch duration information of other operation buttons are obtained by the same principle.

The left button and the right button acquire touch duration information of the left button and the right button after receiving the touch information, the touch duration information of the left button and the right button is sent to the horizontal rotation module, the horizontal rotation module sends the information to the motor, and the motor controls the rotation direction and the rotation angle of the rotating rod according to the acquired touch duration information; the motor is a bidirectional rotating motor, the motor and the rotating rod rotate coaxially, the left button is used for controlling the motor to rotate in the forward direction, the right button is used for controlling the motor to rotate in the reverse direction, and the touch duration information acquired by the motor is 5 times of the rotation duration of the rotating rod;

after the amplifying button and the reducing button receive the touch information, touch duration information of the amplifying button and the reducing button is obtained, the touch duration information of the amplifying button and the reducing button is sent to the focusing module, the focusing module sends the information to the focusing motor, and the focusing motor controls the rotation direction and the rotation angle of the focusing rod according to the obtained touch duration information. The focusing motor is a bidirectional rotating motor, the amplifying button is used for controlling the focusing motor to rotate in the forward direction, the reducing motor is used for controlling the focusing motor to rotate in the reverse direction, the focusing motor and the adjusting rod rotate coaxially, and the touch time length information acquired by the focusing motor is the rotating time length of the adjusting rod.

Preferably, the live broadcast module further comprises a time module, the time module is used for setting time for opening the unified live broadcast module every day, when the preset time of the time module is reached, the reservation module closes live broadcast reservation requests of all cameras, and the control module sequentially opens the unified live broadcast modules of all cameras in the scenic spot according to the tour route of the scenic spot. The camera in the scenic spot all carries out the unified live broadcast at the time of regulation every day, only can carry out the reservation of live broadcast module alone in this time quantum not, also can guarantee like this that the unified live broadcast module of opening that all will all once per day, and the user can watch according to the condition of self.

Specifically, a first connecting ball is fixedly connected to the upper end of the rotating rod, a first connecting plate is fixedly connected to the upper end of the first connecting ball, the axes of the rotating rod, the first connecting ball and the first connecting plate are all located on the same vertical straight line, a second connecting ball is fixedly connected to the fixed disc, a second connecting plate is fixedly connected to the second connecting ball, and the first connecting plate and the second connecting plate are connected through a hinge;

the second connecting ball is connected with a spring rod, and the straight line of the spring rod is superposed with the circle center of the second connecting ball; through the flexible of rotary rod, make the fixed disk rotate 90 degrees on vertical plane, when fixed disk and rotary rod were parallel to each other, the spring beam place runs through the centre of a circle of second connection ball and first connection ball.

The setting through first connection ball and second connection ball drives the rotatory in-process of fixed disk at the rotary rod, can reserve out suitable space to fixed disk and rotary rod, enable the fixed disk to rotate under the drive of rotary rod to the direction parallel with the rotary rod, simultaneously when rotary rod and fixed disk are parallel to each other, the spring beam on the second connection ball contacts with first connection ball, and the centre of a circle of first connection ball and second connection ball is passed to the straight line of spring beam place, first connection board and second connecting plate are in mutually perpendicular's state, the spring beam can cushion first connection ball and second connection ball, reduce wearing and tearing, avoid the fixed disk and send the rocking with the camera head on it, at the in-process of adjusting the camera position, can increase the life of this system effectively.

Specifically, the terminal device comprises a mobile terminal and a scenic spot control terminal. The mobile terminal corresponds to a mobile phone or a computer of each user, the scenic spot control terminal is a computer terminal of the scenic spot, and the scenic spot control terminal comprises a terminal control module which is used for controlling the work of the adjusting module, the reservation module and the camera. The staff can directly control through the computer end in scenic spot, when emergency appears, can directly adjust, avoids the emergence of dangerous accident.

Preferably, the live broadcast module further comprises an electric quantity counting module, the electric quantity counting module is used for counting the residual electric quantity of the camera, and when the electric quantity is smaller than a threshold value E, the electric quantity counting module sends the electric quantity information to the scenic spot control terminal. Scenic spot control terminal can monitor the electric quantity condition of camera, avoids taking place the not enough condition of electric quantity.

Compared with the prior art, the invention has the following advantages and beneficial effects:

according to the scenic spot live broadcast system based on 5G, a user can select a favorite area in a scenic spot for live broadcast, an independent live broadcast module and unified live broadcast can be selected in the live broadcast process, the position and the focal length of a camera can be adjusted in the process of the independent live broadcast module, favorite scenes can be magnified and watched, and live broadcast watching efficiency is improved.

Simultaneously, the unified live broadcast of this system, including the unified live broadcast of a camera to and unify the live broadcast in proper order along every camera of scenic spot tour route, can not satisfy different users' demand like this, when unifying the live broadcast in proper order, can also have the sensation of being personally on the scene simultaneously.

This system still reserves the live module alone through the reservation module, when the number of this camera reservation is more, triggers this camera and unifies live, satisfies most people's demand, and in a sight spot, the camera that unifies live accounts for when most, and the reservation module also stops the live reservation of this sight spot, and triggers unified live at this sight spot, in this sight spot, broadcasts live in proper order to every camera, improves live availability factor.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic diagram of a system;

FIG. 2 is a schematic diagram of the adjusting module controlling the camera to be in an original state;

FIG. 3 is a schematic diagram of the adjusting module controlling the camera to move up and down;

FIG. 4 is a schematic diagram illustrating the adjustment module controlling the left and right rotation of the camera;

FIG. 5 is a schematic view of the rotating rod and the fixing plate being perpendicular to each other;

FIG. 6 is a schematic view of the rotating rod and the fixing disk being parallel to each other;

reference numbers and corresponding part names in the drawings:

1-camera, 2-fixed disk, 3-connecting rod, 4-rotating rod, 5-supporting rod, 6-circular chute, 7-supporting disk, 8-lens, 9-swivel sleeve, 10-adjusting rod, 11-first connecting ball, 12-first connecting plate, 13-second connecting plate, 14-second connecting ball, 15-spring rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

In the description of the present invention, it is to be understood that the terms "front", "rear", "left", "right", "upper", "lower", "vertical", "horizontal", "high", "low", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the scope of the present invention.

[ example 1 ]

In this embodiment, as shown in fig. 1, the system includes a live broadcast module, a 5G communication module and a terminal device, the live broadcast module is used to collect video information, the 5G communication module sends the video information of the live broadcast module to the terminal device, in the local scenic spot, each scenic spot is provided with a plurality of cameras 1 along the tour route of the scenic spot, in the first scenic spot, the tour route along this scenic spot is provided with a camera X1-a camera X10, and 10 cameras are respectively arranged in different areas in the scenic spot.

User A selects camera X2 in the third sight spot in this scenic spot to reserve an individual live broadcast module through terminal equipment, user A selects camera X2 on terminal equipment, after the selection, terminal equipment sends the selected information to the reservation module through the 5G communication module, after the reservation module receives the signal, record camera X2's individual live broadcast module reservation waiting amount, when reservation waiting amount is less than threshold A, the reservation module sends the signal to the control module, the control module controls camera X2 to install, sort and open individual live broadcast module.

In the process of opening the single live broadcast module, the first timing module records the time of the camera X2 for the single live broadcast module, when the time of the user A using the camera X2 for the single live broadcast module exceeds T1, the first timing module sends a signal to the control module, and the control module controls the camera X2 to close the single live broadcast module.

The method comprises the steps that a user B selects a camera X2 in a third scenic spot in a local scenic spot through terminal equipment to reserve an independent live broadcast module, the user B selects a camera X2 on the terminal equipment, after selection, the terminal equipment sends selected information to a reservation module connected with the camera X2 through a 5G communication module, after receiving a signal, the reservation module records reservation waiting amount of the independent live broadcast module of the camera X2, at the moment, the reservation waiting amount of the independent live broadcast module of the camera X2 exceeds a threshold value A, the reservation module sends the signal to a control module, and the control module closes reservation of the independent live broadcast module of the camera X2. Meanwhile, the control module sends the signal to the unified live broadcast module, and the control module controls the unified live broadcast module of the camera X2 to be started.

And the user C selects the camera X4 in the third scenic spot in the local scenic spot through the terminal equipment to reserve the independent live broadcast module, the reservation waiting amount of the independent live broadcast module of the camera X4 exceeds a threshold value A, the reservation module sends a signal to the control module, and the control module stops reserving the independent live broadcast module of the camera X4. Meanwhile, the control module starts a unified live broadcast module of the camera X4. And control module gives the count module with signal transmission, in the count module record this sight spot, carry out the quantity of the camera of unified live broadcast, this moment, the unified live broadcast quantity that the count module recorded exceeds threshold value B, the count module sends the signal and gives control module and reservation module, the reservation module closes the individual live broadcast module of all cameras in this sight spot, control module opens the unified live broadcast module of all cameras in this sight spot, open unified live broadcast module in proper order with camera X1-X10's order, after camera X1 unifies the live broadcast and ends promptly, camera X2 unifies the live broadcast, finish up to camera X10 unification live broadcast.

[ example 2 ]

In the system, the user can rotate the selection camera by 360 degrees by taking a vertical straight line as an axis through the terminal equipment, the camera can also rotate by 0-90 degrees in a vertical plane, and the focal length of the camera can be adjusted simultaneously, so that the user can directly remotely control the camera on the terminal equipment, and the favorite sceneries can be better browsed.

In this embodiment, as shown in fig. 2-4, the adjusting module includes a fixed disk 2 for fixing the camera 1, a supporting disk 7 is disposed at the lower end of the fixed disk 2, a circular chute 6 is disposed on the supporting disk 7, the circular chute 6 is connected with one end of the connecting rod 3, the other end of the connecting rod 3 is hinged to the fixed disk 2, a rotating rod 4 is connected between the fixed disk 2 and the supporting disk 7, the rotating rod 4 drives the fixed disk 2 and the camera 1 thereon to rotate by taking a straight line of the rotating rod 4 as an axis, one end of the connecting rod 3 moves on the circular chute 6, the rotating rod 4 is a telescopic rod capable of extending along a vertical direction, and the position of the camera 1 is adjusted by the rotating rod 4. The upper end of the rotating rod 4 is fixedly connected with a first connecting ball 11, the upper end of the first connecting ball 11 is fixedly connected with a first connecting plate 12, the axes of the rotating rod 4, the first connecting ball 11 and the first connecting plate 12 are positioned on the same vertical straight line, the fixed disk 2 is fixedly connected with a second connecting ball 14, the second connecting ball 14 is fixedly connected with a second connecting plate 13, and the first connecting plate 12 is connected with the second connecting plate 13 through a hinge;

as shown in fig. 5, the second connecting ball 14 is connected with a spring rod 15, and the straight line of the spring rod 15 coincides with the center of the second connecting ball 14; the fixed disk 2 is rotated 90 degrees on the vertical plane by the extension and contraction of the rotating rod 4, when the fixed disk 2 and the rotating rod 4 are parallel to each other, as shown in fig. 6, the spring rod 15 is in contact with the first connecting ball 11, and the spring rod 15 is located through the centers of the second connecting ball 14 and the first connecting ball 11.

Through above-mentioned structure, the user selects the camera rotatory on the horizontal plane or camera upwards rotation or camera rotation down on terminal equipment, and after having selected, terminal equipment sends signal for adjusting module through 5G communication module, and the rotary rod on the camera that adjusting module control corresponds rotates, adjusts the position of horizontal plane promptly, and the control rotary rod stretches out and draws back, and then adjusts the camera and rotate up, and then in order to satisfy the regulation of camera position.

For the adjustment of the focal length, in this embodiment, a rotary sleeve 9 is sleeved on the focusing ring on the lens 8 of the camera 1, an adjusting rod 10 in gear connection with the rotary sleeve 9 is arranged on the fixed disk 2, and the adjusting rod 10 drives the rotary sleeve 9 to rotate through rotation. The user selects the focus of camera to turn up or turn down on terminal equipment, and after the selection, terminal equipment sends information for adjusting module through 5G communication module, and adjusting module obtains the signal after, and is rotatory through control regulation pole, adjusts the pole and is connected with the gear of suit on the focusing ring at rotatory in-process, consequently at the rotatory in-process of regulation pole, drives swivel sleeve and focusing ring and rotates jointly, adjusts the focus of camera promptly at the rotatory in-process of regulation pole.

On the basis of this embodiment, it is preferred, still be connected with bracing piece 5 on the supporting disk 7, bracing piece 5's one end and 7 fixed connection of supporting disk, the bracing piece is the spring beam, when the fixed disk is located parallel state, the upper end of bracing piece contacts with the lower extreme of fixed disk, the bracing piece is in the compression state, and then can support and cushion the fixed disk, support the fixed disk through the bracing piece in the scenic spot, not only do not influence the regulation of adjusting module to the position of camera and focus, when using simultaneously, also can set up more firm, more be favorable to the use in scenic spot. The terminal equipment is provided with a horizontal rotation module, an up-down movement module and a focusing module, wherein the horizontal rotation module is used for receiving a rotation request of a user and sending the rotation request to the single live broadcast module; the up-down moving module is used for receiving an up-down moving request of a user and sending the moving request to the single live broadcast module; the focusing module is used for receiving a focusing request and sending the focusing request to the single live broadcast module;

specifically, when the single live broadcast module is started, the single live broadcast module receives a rotation request, an up-and-down movement request and a focusing request, and sends the received information to the adjusting module, the adjusting module sends the received rotation information to the motor, and the motor starts to work according to the rotation information; the adjusting module sends the received up-and-down movement information to the air cylinder, and the air cylinder starts to work according to the up-and-down movement information; and the adjusting module sends the received focusing information to a focusing motor, and the focusing motor starts to work according to the focusing information.

The horizontal rotation module, the up-down moving module and the focusing module comprise operation buttons arranged on a screen of the terminal equipment, the operation buttons comprise an upper button, a lower button, a left button, a right button, an amplifying button and a reducing button, after the upper button and the lower button receive touch information, touch duration information of the upper button and the lower button is obtained and sent to the up-down moving module, the up-down moving module sends the information to an air cylinder, and the air cylinder controls the stretching duration of the rotating rod 4 according to the obtained touch duration information; after the left button and the right button receive the touch information, acquiring the touch duration information of the left button and the right button, sending the touch duration information of the left button and the right button to the horizontal rotation module, sending the information to the motor by the horizontal rotation module, and controlling the rotation direction and the rotation angle of the rotating rod 4 by the motor according to the acquired touch duration information; after the touch information is received by the zoom-in button and the zoom-out button, the touch duration information of the zoom-in button and the zoom-out button is obtained, the touch duration information of the zoom-in button and the zoom-out button is sent to the focusing module, the focusing module sends the information to the focusing motor, and the focusing motor controls the rotation direction and the rotation angle of the focusing rod 10 according to the obtained touch duration information. The touch duration information acquired by the air cylinder is 10 times of the moving duration of the rotating rod 4; the touch duration information acquired by the motor is 5 times of the rotation duration of the rotating rod 4; the focusing motor and the adjusting rod 10 rotate coaxially, and the touch duration information acquired by the focusing motor is the rotation duration of the adjusting rod 10.

The method comprises the steps that a user touches an upper button on a screen on a terminal device, the upper button obtains initial touch time according to the fact that the user touches the upper button, the upper button starts timing, when the user leaves the upper button, the terminal touch time is triggered, timing is stopped by the upper button, the time from the time when the user touches the upper button to the time when the user leaves the upper button is obtained, the touch time information of the upper button is obtained, the touch time information is sent to an adjusting module, due to the information sent by the upper button, the adjusting module sends the touch time information of the upper button to an air cylinder according to a corresponding module in the adjusting module, the air cylinder controls the upward extending time of a rotating rod according to the touch time information, the touch time information of the upper button is 5 seconds, therefore, the air cylinder controls the rotating rod to extend upwards for 0.5 seconds.

The motor is a bidirectional rotating motor, the motor and the rotating rod 4 rotate coaxially, the left button is used for controlling the motor to rotate in the forward direction, the right button is used for controlling the motor to rotate in the reverse direction, the focusing motor is a bidirectional rotating motor, the amplifying button is used for controlling the focusing motor to rotate in the forward direction, and the reducing motor is used for controlling the focusing motor to rotate in the reverse direction.

The method includes the steps that a user touches a left button on a screen on a terminal device, the left button acquires touch time information of the user on the left button and sends the touch time information to an adjusting module, the adjusting module sends the information to a motor, and the motor controls forward rotation time of a rotating rod according to the touch time information, in the embodiment, the touch time information of the left button is 5 seconds, so that the motor controls the rotating rod to rotate forward for 1 second, and the rotating rate of the rotating rod is 0.5 rps.

The method comprises the steps that a user touches an amplifying button on a screen on a terminal device, the amplifying button acquires touch time information of the user on the amplifying button and sends the touch time information to an adjusting module, the adjusting module sends the information to a focusing motor, and the focusing motor controls the forward rotation time of an adjusting rod according to the touch time information, in the embodiment, the touch time information of the amplifying button is 5 seconds, so that the focusing motor controls the adjusting rod to rotate forwards for 5 seconds, and the rotating speed of the adjusting rod is 0.1 rps.

[ example 3 ]

On the basis of the embodiment 1, the live broadcasting module further comprises a first timing module and a second timing module, wherein the first timing module is used for recording the time of the single live broadcasting module of the camera 1, so that the time of the single live broadcasting module is smaller than T1; the second timing module is used for recording the time when the cameras 1 start to uniformly broadcast along the scenic spot route in sequence, so that the time when the cameras 1 sequentially and uniformly broadcast is less than T2.

T2 may have different values in different areas of the attraction, and is set primarily based on the time of the recommended tour in that area.

The system further comprises a people counting module, the people counting module is used for counting the number of people entering the scenic spot, when the number of people counted by the people counting module is larger than a threshold value D, the reservation module stops reservation of the single live broadcast module, and the control module controls all the cameras 1 in the scenic spot to sequentially start unified live broadcast along scenic spot routes.

Specifically, the terminal device comprises a mobile terminal and a scenic spot control terminal. The scenic spot control terminal comprises a terminal control module, and the terminal control module is used for controlling the work of the adjusting module, the reservation module and the camera 1. When an emergency happens, the working personnel can directly control the camera through the scenic spot control terminal, and the use efficiency is improved.

Meanwhile, the live broadcast module further comprises an electric quantity counting module, the electric quantity counting module is used for counting the residual electric quantity of the camera 1, and when the electric quantity is smaller than a threshold value E, the electric quantity counting module sends the electric quantity information to the scenic spot control terminal. The staff can in time charge or maintain the camera.

[ example 4 ]

The system comprises the following steps:

(1) the method comprises the steps that a user W selects a camera in terminal equipment to carry out reservation of an independent live broadcast module, the terminal equipment sends reserved information to a reservation module, the reservation module receives reservation information and records reservation waiting amount of the independent live broadcast module of the camera, when the reservation waiting amount of the camera is smaller than a threshold value A, the camera can carry out reservation of the independent live broadcast module and sends a signal to a control module, after the user who previously reserves the camera finishes the independent live broadcast module, the control module controls the camera to carry out the independent live broadcast module on the reserved user W, in the process of the independent live broadcast module, the user can adjust the position and the focal length of the camera through the terminal equipment, and after the adjustment, the terminal equipment sends the adjusted information to an adjustable module through a 5G communication module to adjust;

(2) in the process that a user W carries out an independent live broadcast module on the camera, a first timing module starts to calculate the independent live broadcast module time of the camera, when the live broadcast time exceeds T1, a control module controls the camera to stop live broadcast, the control module sends a signal to an adjusting module, and the adjusting module enables the camera to recover the original position;

(3) when a user W selects the camera to make an individual live broadcast module reservation, when the reservation waiting number of the camera is larger than or equal to a threshold value A, the reservation module stops the reservation, the user W cannot make the reservation, meanwhile, the reservation module sends a signal to the control module, and the control module starts the unified live broadcast module;

(4) the counting module records the number of cameras which carry out unified live broadcasting in the scenery spot, when the number of the cameras triggering the unified live broadcasting in the scenery spot is larger than a threshold value B, the counting module sends a signal to the control module, the control module controls all the cameras in the scenery spot to stop the reservation of the single live broadcasting module, the control module controls all the cameras in the scenery spot to sequentially start the unified live broadcasting module along the tour route of the scenery spot, in the process, the second timing module times the cameras which are sequentially live broadcasting, when the time recorded by the second timing module is larger than T2, the cameras stop the unified live broadcasting module, and the next camera starts the unified live broadcasting module;

(5) the system comprises a number counting module, a reservation module, a control module and a unified live broadcast module, wherein the number counting module is used for counting the number of people entering the scenic spot, when the number counted by the number counting module is greater than a threshold value D, the number counting module sends a signal to the reservation module and the control module, the reservation module stops reservation, the control module triggers the unified live broadcast module after the number of people waiting for the independent live broadcast module in the scenic spot is subjected to independent live broadcast module ending, and all cameras in the scenic spot sequentially carry out unified live broadcast along scenic spot tour;

(6) the time module is used for setting the time for carrying out unified live broadcast every day, when the time reaches the unified live broadcast time set by the time module, all cameras in the scenic spot sequentially carry out unified live broadcast along the tour sequence of the scenic spots and the tour sequence in the scenic spots, and the reservation module stops reservation of the single live broadcast module before the set unified live broadcast time.

In the system, the threshold A is 30 persons, the threshold T1 can be 8-15 minutes, and for an area in a scenic spot, the time of a single live broadcast module is set to be 8-15 minutes appropriately, so that the situation that the live broadcast module waits too long time is avoided;

the size of the threshold B is determined according to the number of the cameras arranged in the scenic spots, when the number of the cameras in one scenic spot is 10, the number of the threshold B can be 8, generally speaking, the size of the threshold B is larger than half of the number of all the cameras in the scenic spot, and therefore when the number of people reserving the scenic spot is large, unified live broadcast is carried out, and the live broadcast requirement can be effectively relieved.

The T2 that each camera corresponds can be different values, and the time length of the actual tourism of visitor in this region can be confirmed according to the settlement of T2, and to the regional of famous sight spot, can set up longer time and carry out the live broadcast in unison, and such setting is more humanized.

The threshold value D is the number of people that can be accommodated in the scenic spot, when exceeding this value, do not continue to put into the visitor, adopt the live broadcast mode to count letter system and live broadcast simultaneously, can alleviate the flow of people effectively.

The term "connected" used herein may be either directly connected or indirectly connected via other components without being particularly described.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A scenic spot live broadcast system based on 5G comprises a live broadcast module, a 5G communication module and terminal equipment, wherein the live broadcast module is used for collecting video information, and the 5G communication module sends the video information of the live broadcast module to the terminal equipment, and is characterized in that the live broadcast module comprises a plurality of cameras (1), an individual live broadcast module and a unified live broadcast module, the cameras (1) are arranged in each scenic spot along scenic spot visiting routes, and each camera (1) is connected with a positioning module and a control module; the single live broadcast module is used for sending the acquired video information to one terminal device, and the unified live broadcast module is used for sending the acquired video information to a plurality of terminal devices;

the single live broadcast module comprises a regulating module and an appointment module; the adjusting module is used for receiving an adjusting signal of the terminal equipment and adjusting the position and the focal length of the camera (1) according to the adjusting signal; the reservation module is used for receiving live broadcast reservation requests of the terminal equipment to the single live broadcast module, counting and sequencing the received reservation requests and obtaining reservation waiting amount of each camera (1); when the reservation waiting amount of one camera (1) is larger than a threshold value A, a reservation module closes a live broadcast reservation request of the camera (1), the reservation module sends a signal to a control module, and the control module opens a unified live broadcast module of the camera (1);

when the reservation waiting amount of one camera (1) is less than or equal to a threshold value A, a reservation module receives a live broadcast reservation request of the camera (1), the reservation module sends a sequencing signal of the reservation request to a control module, and the control module starts a single live broadcast module for the camera (1) according to the sequencing signal;

the unified live broadcast module comprises a counting module, after the control module starts the unified live broadcast module for one camera (1), the control module sends information to the counting module, and the counting module counts the number of the cameras (1) which start the unified live broadcast module in the scenic spot according to the information sent by the control module; when the statistical number of the counting modules is larger than a threshold value B, the counting modules send signals to the reservation module and the control module, the reservation module closes the live broadcast reservation requests of all the cameras (1) in the scenic spot, and the control module sequentially opens the uniform live broadcast modules of all the cameras (1) in the scenic spot according to the tour route of the scenic spot;

when the counted number of the counting module is less than or equal to the threshold value B, the counting module counts the number of the cameras (1) which start the unified live broadcast module in the scenic spot according to the information sent by the control module.

2. The live broadcasting system for 5G-based scenic spots as claimed in claim 1, wherein the live broadcasting module further comprises a first timing module and a second timing module, the first timing module is configured to record a time when the camera (1) starts the single live broadcasting module, when the live broadcasting time of the camera (1) is greater than or equal to T1, the first timing module sends a signal to the control module, and the control module closes the single live broadcasting module of the camera (1); when the live broadcasting time of the camera (1) is less than T1, the single live broadcasting module of the camera (1) works normally;

the second timing module is used for recording the time of sequentially opening the unified live broadcast module by each camera (1) in each scenic spot along the route of the scenic spot, when the live broadcast time of the camera (1) is greater than or equal to T2, the second timing module sends a signal to the control module, the control module closes the unified live broadcast module of the camera (1), and opens the unified live broadcast module of the next camera (1) according to the tour route of the scenic spot; when the live broadcast time of the camera (1) is less than T2, the unified live broadcast module of the camera (1) works normally.

3. The live broadcasting system for scenic spots based on 5G as claimed in claim 1 or 2, wherein the system further comprises a people counting module for counting the number of people entering the scenic spot, when the number of people counted by the people counting module is greater than a threshold D, the people counting module sends a signal to the reservation module and the control module, the reservation module closes the reservation request of all cameras in the scenic spot, and the control module opens the unified live broadcasting module of the camera (1) according to the tour route of the scenic spot.

4. The 5G-based scenic spot direct seeding system according to claim 1, wherein the adjusting module comprises a fixed disk (2) for fixing the camera (1), a supporting disk (7) is arranged at the lower end of the fixed disk (2), a circular sliding groove (6) is arranged on the supporting disk (7), the circular sliding groove (6) is connected with one end of the connecting rod (3), the other end of the connecting rod (3) is hinged with the fixed disk (2), a rotating rod (4) is connected between the fixed disk (2) and the supporting disk (7), the rotating rod (4) can drive the fixed disk (2) and the camera (1) thereon to axially rotate by taking the straight line of the rotating rod (4) as an axis, the rotating rod (4) drives one end of the connecting rod (3) to move on the circular sliding groove (6) in the rotating process, and the rotating rod (4) is a telescopic rod capable of extending and retracting in the vertical direction, the position of the camera (1) is adjusted by the rotating rod (4) through rotation and stretching, the rotating rod (4) is controlled to rotate through a motor, and the stretching of the rotating rod (4) is controlled through the work of a cylinder;

a rotary sleeve (9) is sleeved on a focusing ring on a lens (8) of the camera (1), an adjusting rod (10) in gear connection with the rotary sleeve (9) is arranged on the fixed disc (2), the adjusting rod (10) drives the rotary sleeve (9) to rotate through rotation, and the adjusting rod (10) is controlled to rotate through a focusing motor;

the terminal equipment is provided with a horizontal rotation module, an up-down movement module and a focusing module, wherein the horizontal rotation module is used for receiving a rotation request of a user and sending the rotation request to the single live broadcast module; the up-down moving module is used for receiving an up-down moving request of a user and sending the moving request to the single live broadcast module; the focusing module is used for receiving a focusing request and sending the focusing request to the single live broadcast module;

when the single live broadcast module is started, the single live broadcast module receives a rotation request, an up-and-down movement request and a focusing request and sends the received information to the adjusting module, the adjusting module sends the received rotation information to the motor, and the motor starts to work according to the rotation information; the adjusting module sends the received up-and-down movement information to the air cylinder, and the air cylinder starts to work according to the up-and-down movement information; and the adjusting module sends the received focusing information to a focusing motor, and the focusing motor starts to work according to the focusing information.

5. The 5G-based scenic spot live broadcasting system according to claim 4, wherein the horizontal rotation module, the up-down movement module and the focusing module comprise operation buttons arranged on a screen of the terminal device, the operation buttons comprise an upper button, a lower button, a left button, a right button, an enlargement button and a reduction button, the upper button and the lower button acquire touch duration information of the upper button and the lower button after receiving the touch information and send the touch duration information of the upper button and the lower button to the up-down movement module, the up-down movement module sends the information to the air cylinder, and the air cylinder controls the stretching duration of the rotating rod (4) according to the acquired touch duration information;

after the left button and the right button receive the touch information, acquiring the touch duration information of the left button and the right button, sending the touch duration information of the left button and the right button to the horizontal rotation module, sending the information to the motor by the horizontal rotation module, and controlling the rotation direction and the rotation angle of the rotating rod (4) by the motor according to the acquired touch duration information;

after the touch information is received by the magnifying button and the reducing button, the touch duration information of the magnifying button and the reducing button is obtained, the touch duration information of the magnifying button and the reducing button is sent to the focusing module, the focusing module sends the information to the focusing motor, and the focusing motor controls the rotation direction and the rotation angle of the focusing rod (10) according to the obtained touch duration information.

6. A5G-based scenic spot live broadcasting system according to claim 5, wherein the touch duration information obtained by the air cylinder is 10 times of the duration of the movement of the rotating rod (4); the touch duration information acquired by the motor is 5 times of the rotation duration of the rotating rod (4); the focusing motor and the adjusting rod (10) rotate coaxially, and the touch duration information acquired by the focusing motor is the rotation duration of the adjusting rod (10).

7. The 5G-based scenic spot direct broadcasting system according to claim 4, wherein a first connecting ball (11) is fixedly connected to the upper end of the rotating rod (4), a first connecting plate (12) is fixedly connected to the upper end of the first connecting ball (11), the axes of the rotating rod (4), the first connecting ball (11) and the first connecting plate (12) are all located on the same vertical straight line, a second connecting ball (14) is fixedly connected to the fixed disk (2), a second connecting plate (13) is fixedly connected to the second connecting ball (14), and the first connecting plate (12) and the second connecting plate (13) are connected through a hinge;

the second connecting ball (14) is connected with a spring rod (15), and the straight line of the spring rod (15) is superposed with the circle center of the second connecting ball (14); through the flexible of rotary rod (4), make fixed disk (2) rotate 90 degrees on vertical plane, when fixed disk (2) and rotary rod (4) were parallel to each other, spring beam (15) contacted with first connecting ball (11), and the centre of a circle of second connecting ball (14) and first connecting ball (11) is run through in spring beam (15) place.

8. The live broadcasting system for 5G scenic spots is characterized in that the live broadcasting module further comprises a time module, the time module is used for setting the time for opening the unified live broadcasting module each day, when the preset time of the time module is reached, the reservation module closes the live broadcasting reservation requests of all cameras (1), and the control module sequentially opens the unified live broadcasting modules of all cameras (1) in the scenic spot according to the tour route of the scenic spot.

9. The live broadcasting system for 5G scenic spots is characterized in that the terminal devices comprise a mobile terminal and a scenic spot control terminal, the scenic spot control terminal comprises a terminal control module, and the terminal control module is used for controlling the operations of the adjusting module, the reservation module and the camera (1).

10. The live broadcasting system for scenic spots based on 5G as claimed in claim 8, wherein the live broadcasting module further comprises a power statistics module, the power statistics module is used for counting the remaining power of the camera (1), and when the power is less than a threshold E, the power statistics module sends the power information to the control terminal for scenic spots.

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