CN115633132B

CN115633132B - Virtual studio equipment with good heat dissipation performance

Info

Publication number: CN115633132B
Application number: CN202211406509.7A
Authority: CN
Inventors: 沈政
Original assignee: Jiangsu Norcat Electronic Technology Co ltd
Current assignee: Jiangsu Norcat Electronic Technology Co ltd
Priority date: 2022-11-10
Filing date: 2022-11-10
Publication date: 2023-12-19
Anticipated expiration: 2042-11-10
Also published as: CN115633132A

Abstract

The invention belongs to the technical field of heat dissipation of virtual studios, in particular to virtual studio equipment with good heat dissipation performance, which comprises a studio, wherein a control hall is arranged in an inner cavity of the studio, and the surface of the control hall is fixedly connected with one side of the inner cavity of the studio; the surface of the induction stage is fixedly connected with one side of the inner cavity of the studio, which is far away from the control hall, and the surface of the induction stage is fixedly connected with a platform; the capturing device is used for capturing the motion trail of the body of the user on the sensing stage. The device can be through the air-blower of studio chamber side, with outside air-guide to the inside of studio, carry out the change of air current to the wind-force direction of action of air-blower can be adjusted through the guide board of vertical bull stick surface, thereby makes wind-force paste the studio and respond to the surface of stage and indirectly carry out the air current to the district that the actor is located and change, has avoided general fan direct action on the actor, causes the problem of interference to the actor.

Description

Virtual studio equipment with good heat dissipation performance

Technical Field

The invention belongs to the technical field of heat dissipation of virtual studios, and particularly relates to virtual studio equipment with good heat dissipation performance.

Background

The virtual studio is a unique television program making technology developed in recent years, and the essence of the virtual studio is that a virtual three-dimensional scene made by a computer and a character moving image shot by a television camera on site are digitally synthesized in real time, so that the character and a virtual background can be synchronously changed, and seamless fusion of the character and the virtual background is realized, so that a perfect synthesized picture is obtained.

The existing virtual studio equipment is various, but the defect of poor radiating effect generally exists, the existing studio equipment radiates heat by using a fan, the fan is usually fixed, and the fan is used for cooling the studio personnel, but the air fluidity inside the studio is poor, and the studio is unfavorable for long-time work of the studio personnel, so that the radiating device needs to be improved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the virtual studio equipment with good heat dissipation performance comprises a studio, wherein a control hall is arranged in an inner cavity of the studio, and the surface of the control hall is fixedly connected with one side of the inner cavity of the studio; the surface of the induction stage is fixedly connected with one side of the inner cavity of the studio, which is far away from the control hall, and the surface of the induction stage is fixedly connected with a platform; the capturing device is used for capturing the motion trail of the body of the user on the sensing stage; the device can provide virtual performance function, when the inside of the device carries out virtual performance, the inside of control hall is monitored by curtain personnel such as director, and the performer is located the top of response stage and carries out the performance, through the dynamic capture device of wearing, makes the motion trail of capturing the person of the utensil capture, and then generates virtual image, through the post-processing of computer, accomplishes virtual performance function.

Preferably, the heat dissipating device comprises a side fixing frame, the surface of the side fixing frame is fixedly connected with one side of the inner cavity of the studio, the inner cavity of the side fixing frame is rotationally connected with a vertical rotating rod, both sides of the surface of the vertical rotating rod are fixedly connected with oblique guide plates, the top end of the vertical rotating rod is rotationally connected with a bundling rotating sleeve, one side of the surface of the bundling rotating sleeve, which is close to a capturing device, is slidingly connected with a clamping sliding block, the bottom end of the clamping sliding block is slidingly connected with an external sliding rail, and both ends of the inner cavity of the external sliding rail are rotationally connected with a control rotating rod; because the virtual studio is usually a closed space, the air flow mobility in the interior is poor, and the mechanical equipment in the virtual studio is more, so that a performer and related photographic personnel can easily feel that the temperature is too high when working in the interior, and the performer is directly blown by an air conditioner and other devices, and the performer can be disturbed to work, meanwhile, the stability of a capturing device can be influenced by the direct action of wind power.

Preferably, the drainage device comprises an adherence baffle, the middle part of the inner cavity of the adherence baffle is slidingly connected with a vertical bundling plate, one side of the surface of the vertical bundling plate, which is close to the capturing device, is slidingly connected with a switching connecting rod, one end of the switching connecting rod, which is far away from the adherence baffle, is fixedly connected with a clamping block, the inner cavity of the vertical bundling plate is slidingly connected with a sliding sleeve, the surface of the sliding sleeve is sheathed with a spring washer, the bottom end of the vertical bundling plate is slidingly connected with a limiting base table, and two sides of the inner cavity of the limiting base table are slidingly connected with buffer springs; the device possesses two kinds of heat dissipation modes, when the rotation range of vertical bull stick is less, every revolving plate all subtends the air intake department of adherence baffle this moment, the inside of adherence baffle can directly be blown into to the air that blows in from the air-blower, under the effect of wind power, vertical bundling plate slides one side to the clamp block earlier and is apart from, then slip sleeve is because the atress is to the one side that is close to the clamp block slip alone, filter after the inner wall that the wind-force passes through slip sleeve this moment, and act on the surface of response stage under the guide of adherence baffle, the guide through the response stage forms the windcurrent, when carrying out air communication, make wind-force effect on the person of performing as far as possible.

Preferably, the center table includes the support shell, the equal sliding connection in both sides of support shell inner chamber has the atress sliding frame, the both sides at support shell inner chamber top are all through running through grooving fixedly connected with filter, one side fixedly connected with that the atress sliding frame inner chamber is close to the filter runs through the shell, the middle part that runs through the shell inner chamber rotates and is connected with the turbine bull stick, one side sliding connection that the atress sliding frame inner chamber kept away from the filter has from opening the device. When the vertical rotating rod rotates to be in a state of being completely vertical to the side edge of the studio, the air blowers on the two sides can directly blow air to the space in the middle, then the capturing device right above and shooting personnel on the upper surface of the center table are cooled, because wind power is right opposite to the two sides of the supporting shell, the stressed sliding frames on the two sides of the inner cavity of the supporting shell start to slide towards the axis of the supporting shell under the action of strong wind until the top end of the penetrating shell is connected with the lower surface of the filter plate, the bottom end of the penetrating shell is communicated with the through hole at the bottom of the inner cavity of the studio, then the turbine rotating rod rotates under the control of the self-starting device, air in the studio is discharged from the through hole at the bottom through the filter plate, at the moment, the wind blown out from the side fixing frame can form circulation under the drainage action of the supporting shell, and dust impurities in the studio can be gathered at the center table while the internal air and heat are taken away, and gradually discharged to the outside of the device through wind flow.

Preferably, the bottom of vertical bull stick is rotated with the bottom of side mount inner chamber and is connected, vertical grooving has evenly been seted up to the one side that is close to the capture utensil on the cover surface of rotating in a bundle, the surface of rotating in a bundle passes through vertical grooving and the mutual joint in the surface of joint slider, the bottom of external slide rail and the top fixed connection on studio surface. The device is in the in-process of the guide wind flow through adherence baffle, and the sliding sleeve's inner chamber can carry out simple filtration work to the air that flows, and the sliding sleeve is after wind-force stops, and the extruded spring washer of surface can promote the sliding sleeve and slide repeatedly at vertical bundling plate's inner chamber to vertical bundling plate also shakes fast at spacing base station's inner chamber, so the sliding sleeve can be with inside impurity discharge under the vibration effect of high frequency, thereby keeps good filtration ability.

Preferably, the both sides of studio surface all fixedly connected with air-blower, and the inner chamber of air-blower is kept away from the side that catches the utensil and is covered completely, the both ends of supporting shell just right the bottom of side mount, the bottom fixed connection of control bull stick surface through traction area and joint slider. The device can be through the air-blower of studio chamber side, with outside air-guide to the inside of studio, carry out the change of air current to the wind-force direction of action of air-blower can be adjusted through the guide board of vertical bull stick surface, thereby makes wind-force paste the studio and respond to the surface of stage and indirectly carry out the air current to the district that the actor is located and change, has avoided general fan direct action on the actor, causes the problem of interference to the actor.

Preferably, the bottom of studio inner chamber is offered to the bottom symmetry and is cut out the groove, and the bottom is cut out the lower surface just to the filter, run through the bottom of shell and extend to the outside of atress sliding frame, run through the bottom of shell and the inner chamber sliding connection of supporting shell, the top fixedly connected with photographic apparatus of supporting shell. Because the performer does not need to perform the performance work above the center table, and more machines are arranged near the center table, and a strong cooling effect is needed, when the vertical rotating rod rotates to be in a state of being completely perpendicular to the side edge of the studio, the blower can perform the blowing cooling work on the inside of the studio with the maximum power, and the center table can automatically guide the air in the studio to the outside from the bottom, so that garbage impurities in the studio are gathered on the center table, and cleaning work is performed, so that the cleanliness of the inside of the studio is ensured.

Preferably, the capturing device comprises a controller, the bottom of the inner cavity of the controller is slidably connected with a vertical telescopic rod, the bottom end of the vertical telescopic rod is fixedly connected with an adjusting frame, one end of the adjusting frame, which is far away from the controller, is fixedly connected with a monitor, one end of the inner cavity of the monitor, which is far away from the adjusting frame, is fixedly connected with a capturing lens, the surface of the monitor is rotationally connected with an auxiliary rotating rod, and the top of the controller is rotationally connected with the top of the inner cavity of the studio. When the capturing device is used for carrying out action capturing work on a performer, the controller slides against the inner wall of the studio, the monitor is further twisted through the adjusting frame, and the controller controls the vertical telescopic rod to pry the monitor by taking the bottom end of the auxiliary rotating rod as a supporting point, so that each capturing lens has a certain degree of freedom and cannot interfere with each other.

Preferably, the clamping block comprises a filling block shell, an axle center cutting groove is formed in the axle center of the inner cavity of the filling block shell, two ends of the axle center cutting groove extend to the outside of the filling block shell, a spring clamping plate is connected in the middle of the inner cavity of the filling block shell in a sliding mode, and round-head sliding plates are connected at two ends of the inner cavity of the spring clamping plate in a sliding mode. The surface of filling block shell extrudes each other with one side of response stage surface, the surface of filling block shell and the inner chamber fixed connection of studio, the one end that the wall baffle was kept away from to the switching connecting rod and the inner chamber sliding connection of filling block shell, the one end fixedly connected with joint slide that the wall baffle was kept away from to the switching connecting rod, the one end of button head slide extends to the outside of filling block shell. The vertical screen of response stage is pressed from both sides tightly fixed through the filler piece shell of fixing on the studio inner wall to the clamp block of both sides, increase the stability of screen, prevent that the screen of temporarily putting up from collapsing, and when the inner wall of adherence baffle was ventilated, because vertical bundling plate can slide certain distance because of wind-force, so vertical bundling plate can pull the switching connecting rod and extrude the filler piece shell this moment, the spring clamp plate is inwards pressed to the switching connecting rod this moment, the button head slide of both sides is because the inner wall of extrusion force shrink back spring clamp plate to take place the relative slip with the inner wall of filler piece shell, the grooving of filler piece shell both sides is opened this moment, the partial wind-force that passes through from adherence baffle is on the vertical plate of response stage under the direct action from the guide of filler piece shell grooving, carry out directional cooling work to the screen of response stage.

Preferably, the self-opening device comprises a light shell, one side, far away from the filter plate, of the inner cavity of the light shell is fixedly connected with a power supply board, one side, close to the filter plate, of the inner cavity of the light shell is fixedly connected with a spring inserted rod, two ends of the inner cavity of the light shell are fixedly connected with extension guide rods, one end of each extension guide rod is fixedly connected with a torsion motor, and the other end of each extension guide rod is slidably connected with an external guide rod. When the atress sliding frame slides to the one side that is close to the filter, run through the shell and can pull the spring inserted bar, the other end of spring inserted bar can pull the power strip of light shell inner chamber and slide to the one side that is close to the filter this moment, and then the both ends and the external guide arm of power strip peg graft each other, and then make torsion motor automatic power on, after the cooling work, the atress sliding frame of both sides separates each other under the thrust of spring including, and the spring inserted bar is quick with power strip and external guide arm mutual separation this moment, forces torsion motor automatic power off.

Preferably, the inner cavity of the torsion motor is rotationally connected with one end of the turbine rotating rod, the surface of the torsion motor is fixedly connected with one end penetrating through the inner cavity of the shell, the surface of the light shell is fixedly connected with the bottom of the inner cavity of the studio, and the top end of the external guide rod is in sliding connection with the interface of the power panel. Under the condition that the heat dissipation device does not ventilate, the center table only plays the effects of natural heat dissipation and free diffusion of the insect, after the heat dissipation device is started, the turbine rotating rod inside the center table in butt joint with the heat dissipation device can be automatically started to perform air extraction work, so that the adsorption capacity of the center table is enhanced.

The beneficial effects of the invention are as follows:

1. the device can be through the air-blower of studio chamber side, with outside air-guide to the inside of studio, carry out the change of air current to the wind-force direction of action of air-blower can be adjusted through the guide board of vertical bull stick surface, thereby makes wind-force paste the studio and respond to the surface of stage and indirectly carry out the air current to the district that the actor is located and change, has avoided general fan direct action on the actor, causes the problem of interference to the actor.

2. The device is in the in-process of the guide wind flow through adherence baffle, and the sliding sleeve's inner chamber can carry out simple filtration work to the air that flows, and the sliding sleeve is after wind-force stops, and the extruded spring washer of surface can promote the sliding sleeve and slide repeatedly at vertical bundling plate's inner chamber to vertical bundling plate also shakes fast at spacing base station's inner chamber, so the sliding sleeve can be with inside impurity discharge under the vibration effect of high frequency, thereby keeps good filtration ability.

3. Because the performer does not need to perform the performance work above the center table, and more machines are arranged near the center table, and a strong cooling effect is needed, when the vertical rotating rod rotates to be in a state of being completely perpendicular to the side edge of the studio, the blower can perform the blowing cooling work on the inside of the studio with the maximum power, and the center table can automatically guide the air in the studio to the outside from the bottom, so that garbage impurities in the studio are gathered on the center table, and cleaning work is performed, so that the cleanliness of the inside of the studio is ensured.

4. The vertical screen of induction stage is tightly fixed through the filler piece shell of fixing on the studio inner wall to the clamp block of both sides, increases the stability of screen, prevents that the screen of temporarily putting up from collapsing, and when the inner wall ventilation of adherence baffle, the part wind-force that passes through from adherence baffle is on the vertical board of induction stage under the direct action from the guide of filler piece shell grooving, carries out directional cooling work to the screen of induction stage to guarantee the heat dispersion of screen, alleviate the screen and appear overheated phenomenon in the continuous operation.

5. Under the condition that the heat dissipation device does not ventilate, the center table only plays the effects of natural heat dissipation and free diffusion of the insect, after the heat dissipation device is started, the turbine rotating rod inside the center table in butt joint with the heat dissipation device can be automatically started to perform air extraction work, so that the adsorption capacity of the center table is enhanced.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic diagram of a heat dissipating device according to the present invention;

FIG. 4 is a schematic view of the structure of the drainage device of the present invention;

FIG. 5 is a cross-sectional view of a center station of the present invention;

FIG. 6 is a schematic view of the structure of the capturing appliance of the present invention;

FIG. 7 is a cross-sectional view of a clamping block of the present invention;

fig. 8 is a schematic structural view of the self-opening device of the present invention.

In the figure: 1. a studio; 11. a control hall; 12. sensing a stage; 13. a podium; 2. a catching means; 21. a controller; 22. an adjusting frame; 23. a monitor; 24. capturing a lens; 25. an auxiliary rotating rod; 3. a heat sink; 31. a side fixing frame; 32. a vertical turning rod; 33. bundling and turning; 34. clamping a sliding block; 35. an external sliding rail; 36. a control rotating rod; 37. a blower; 4. a drainage device; 41. attaching a partition board; 42. a vertical cluster plate; 43. a sliding sleeve; 44. a spring washer; 45. a limit base table; 46. a buffer spring; 47. a connecting rod is connected; 5. a center table; 51. a support case; 52. a stressed sliding frame; 53. penetrating the shell; 54. a turbine turning rod; 55. a filter plate; 56. a torsion motor; 6. a clamping block; 61. filling the block shell; 62. a spring clamping plate; 63. a round head slide plate; 64. the sliding plate is clamped; 7. a self-starting device; 71. a light outer shell; 72. a power panel; 73. a spring plunger; 74. extending the guide rod; 75. and a guide rod is externally connected.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1-5, the present invention provides a technical solution: the virtual studio equipment with good heat dissipation performance comprises a studio 1, wherein a control hall 11 is arranged in an inner cavity of the studio 1, and the surface of the control hall 11 is fixedly connected with one side of the inner cavity of the studio 1; the induction stage 12, the surface of the induction stage 12 is fixedly connected with one side of the inner cavity of the studio 1 far away from the control hall 11, and the surface of the induction stage 12 is fixedly connected with a platform 13; a capturing device 2 for capturing a motion trace of a user's body on the sensing stage 12;

the heat dissipation device 3 comprises a side fixing frame 31, the surface of the side fixing frame 31 is fixedly connected with one side of the inner cavity of the studio 1, the inner cavity of the side fixing frame 31 is rotationally connected with a vertical rotating rod 32, both sides of the surface of the vertical rotating rod 32 are fixedly connected with oblique guide plates, the top end of the vertical rotating rod 32 is rotationally connected with a bundling rotating sleeve 33, one side of the surface of the bundling rotating sleeve 33, which is close to the capturing device 2, is slidingly connected with a clamping sliding block 34, the bottom end of the clamping sliding block 34 is slidingly connected with an external sliding rail 35, and both ends of the inner cavity of the external sliding rail 35 are rotationally connected with a control rotating rod 36;

the drainage device 4 comprises an adherence partition 41, a vertical bundling plate 42 is slidably connected in the middle of the inner cavity of the adherence partition 41, a switching connecting rod 47 is slidably connected to one side, close to the capturing device 2, of the surface of the vertical bundling plate 42, a clamping block 6 is fixedly connected to one end, far away from the adherence partition 41, of the switching connecting rod 47, a sliding sleeve 43 is slidably connected to the inner cavity of the vertical bundling plate 42, a spring washer 44 is sleeved on the surface of the sliding sleeve 43, a limiting base table 45 is slidably connected to the bottom end of the vertical bundling plate 42, and buffer springs 46 are slidably connected to two sides of the inner cavity of the limiting base table 45;

the center table 5, the center table 5 includes supporting shell 51, and the both sides of supporting shell 51 inner chamber all sliding connection has atress sliding frame 52, and the both sides at supporting shell 51 inner chamber top all are through running through grooving fixedly connected with filter 55, and the one side fixedly connected with that atress sliding frame 52 inner chamber is close to filter 55 runs through shell 53, runs through the middle part in shell 53 inner chamber and rotates and be connected with turbine bull stick 54, and the one side sliding connection that atress sliding frame 52 inner chamber kept away from filter 55 has from opening device 7.

The bottom of vertical bull stick 32 rotates with the bottom of side mount 31 inner chamber to be connected, and vertical grooving has evenly been seted up to the one side that is close to catching utensil 2 of the cover 33 surface of tied in a bundle, and the surface of the cover 33 of tied in a bundle passes through vertical grooving and the mutual joint of the surface of joint slider 34, and the bottom of external slide rail 35 is fixedly connected with the top on studio 1 surface.

The air blower 37 is fixedly connected to the two sides of the surface of the studio 1, the inner cavity of the air blower 37 completely covers one side, far away from the capturing device 2, of the side fixing frame 31, the two ends of the supporting shell 51 are opposite to the bottom of the side fixing frame 31, and the surface of the control rotating rod 36 is fixedly connected with the bottom end of the clamping sliding block 34 through a traction belt.

The bottom of studio 1 inner chamber is offered to the bottom symmetry and is cut a groove, and the bottom is cut a groove just to the lower surface of filter 55, runs through the bottom of shell 53 and extends to the outside of atress sliding frame 52, runs through the bottom of shell 53 and the inner chamber sliding connection of support shell 51, the top fixedly connected with photographic apparatus of support shell 51.

The device can provide virtual performance function, when the device is used for performing virtual performance, the inside of the control hall 11 is monitored by curtain personnel such as directors, the performer is located above the induction stage 12 for performing, the motion trail of the performer is captured by the capturing device 2 through the wearing dynamic capturing device, virtual images are generated, and the virtual performance function is completed through post-processing of a computer.

Because the virtual studio is usually a closed space, the air flow mobility in the interior is poor, and the mechanical equipment in the virtual studio is more, so that a performer and related photographers can easily feel that the temperature is too high when working in the interior, and the performer is directly blown by an air conditioner and the like, and the performer is disturbed to work, meanwhile, the stability of the capturing device is influenced by the direct action of wind power.

The device possesses two kinds of heat dissipation modes, when the rotation range of vertical bull stick 32 is less, every revolving plate all subtends the air intake department of adherence baffle 41 this moment, the inside of adherence baffle 41 can directly be blown into to the air that blows in from air-blower 37, under the effect of wind power, vertical buncher 42 slides a distance to one side of pressing from both sides tight piece 6 earlier, then sliding sleeve 43 is because the atress is to the one side that is close to pressing from both sides tight piece 6 alone slides, filter after the inner wall of sliding sleeve 43 this moment wind-force, and act on the surface of induction stage 12 under the guide of adherence baffle 41, form the windcurrent through the guide of induction stage 12, when carrying out the air communication, make wind-force effect on the performance personnel as far as possible.

When the vertical rotating rod 32 rotates to be in a state of being completely vertical to the side edge of the studio 1, the air blowers 37 on the two sides can directly blow air to the space in the middle, further, shooting personnel on the upper surfaces of the capturing device 2 and the center table 5 right above the capturing device are cooled, because wind force is right opposite to the two sides of the supporting shell 51 at the moment, the stressed sliding frames 52 on the two sides of the inner cavity of the supporting shell 51 start to slide towards the axis of the supporting shell 51 under the action of strong wind until the top end of the penetrating shell 53 is connected with the lower surface of the filter plate 55, the bottom end of the penetrating shell 53 is connected with a through hole at the bottom of the inner cavity of the studio 1, then the turbine rotating rod 54 rotates under the control of the self-starting device 7, air in the studio 1 is discharged from the through hole at the bottom of the filter plate 55, at the moment, the wind blown out from the side fixing frame 31 can form circulation under the drainage action of the supporting shell 51, and dust in the studio 1 can be gathered at the center table 5 under the action of taking away of internal air and heat, and discharged to the outside of the device gradually through wind flow.

Example two

Referring to fig. 1-8, the present invention provides a technical solution: on the basis of the first embodiment, the capturing device 2 comprises a controller 21, the bottom of the inner cavity of the controller 21 is slidably connected with a vertical telescopic rod, the bottom end of the vertical telescopic rod is fixedly connected with an adjusting frame 22, one end of the adjusting frame 22, which is far away from the controller 21, is fixedly connected with a monitor 23, one end of the inner cavity of the monitor 23, which is far away from the adjusting frame 22, is fixedly connected with a capturing lens 24, the surface of the monitor 23 is rotationally connected with an auxiliary rotating rod 25, and the top of the controller 21 is rotationally connected with the top of the inner cavity of the studio 1.

The clamping block 6 comprises a filling block shell 61, an axle center cutting groove is formed in the axle center of the inner cavity of the filling block shell 61, two ends of the axle center cutting groove extend to the outside of the filling block shell 61, a spring clamping plate 62 is slidably connected to the middle of the inner cavity of the filling block shell 61, and round-head sliding plates 63 are slidably connected to two ends of the inner cavity of the spring clamping plate 62.

The surface of the filling block shell 61 and one side of the surface of the induction stage 12 are mutually extruded, the surface of the filling block shell 61 is fixedly connected with the inner cavity of the studio 1, one end of the switching connecting rod 47, which is far away from the wall-attached partition 41, is slidably connected with the inner cavity of the filling block shell 61, one end of the switching connecting rod 47, which is far away from the wall-attached partition 41, is fixedly connected with a clamping sliding plate 64, and one end of the round-head sliding plate 63 extends to the outside of the filling block shell 61.

The self-starting device 7 comprises a light shell 71, a power panel 72 is fixedly connected to one side, far away from the filter plate 55, of an inner cavity of the light shell 71, a spring inserting rod 73 is fixedly connected to one side, close to the filter plate 55, of the inner cavity of the light shell 71, extension guide rods 74 are fixedly connected to two ends of the inner cavity of the light shell 71, one end of each extension guide rod 74 is fixedly connected with a torsion motor 56, and the other end of each extension guide rod 74 is slidably connected with an external guide rod 75.

The inner cavity of the torsion motor 56 is rotationally connected with one end of the turbine rotary rod 54, the surface of the torsion motor 56 is fixedly connected with one end penetrating through the inner cavity of the shell 53, the surface of the light shell 71 is fixedly connected with the bottom of the inner cavity of the studio 1, and the top end of the external guide rod 75 is in sliding connection with the interface of the power panel 72.

When the capturing tool 2 is used for performing an action capturing operation on a presenter, the controller 21 slides against the inner wall of the studio 1, the monitor 23 is further twisted by the adjusting frame 22, and the controller 21 controls the vertical telescopic rod to pry the monitor 23 with the bottom end of the auxiliary rotating rod 25 as a fulcrum, so that each capturing lens 24 has a certain degree of freedom and does not interfere with each other.

The vertical screen of induction stage 12 is tightly fixed through the filler piece shell 61 that fixes on studio 1 inner wall to clamp the piece 6 in both sides, increase the stability of screen, prevent the screen of temporarily putting up to collapse, and when the inner wall of adherence baffle 41 was ventilated, because vertical bunching plate 42 can slide a certain distance because of wind-force, so vertical bunching plate 42 can pull switching connecting rod 47 and extrude filler piece shell 61 this moment, switching connecting rod 47 inwards presses spring clamp plate 62 this moment, the button head slide 63 of both sides is because the inner wall of spring clamp plate 62 is expanded to the inner wall of filler piece shell 61 to take place the relative slip with the inner wall of filler piece shell 61, the grooving of filler piece shell 61 both sides is opened this moment, the partial wind-force that passes through from adherence baffle 41 is on the vertical board of induction stage 12 under the direct action from the guide of filler piece shell 61 grooving carries out directional cooling work to the screen of induction stage 12.

When the stressed sliding frame 52 slides to one side close to the filter plate 55, the through shell 53 can pull the spring inserting rod 73, at the moment, the other end of the spring inserting rod 73 can pull the power panel 92 in the inner cavity of the light shell 71 to slide to one side close to the filter plate 55, then the two ends of the power panel 72 are mutually inserted with the external guide rods 75, further the torsion motor 56 is automatically electrified, after the cooling work is finished, the stressed sliding frames 52 on the two sides are mutually separated under the thrust of the internal springs, at the moment, the spring inserting rod 73 rapidly separates the power panel 72 from the external guide rods 75, and the torsion motor 56 is forced to automatically cut off power.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. The utility model provides a virtual studio equipment that heat dispersion is good, includes studio (1), the inner chamber of studio (1) is provided with:

the surface of the control hall (11) is fixedly connected with one side of the inner cavity of the studio (1);

the induction stage (12), the surface of the induction stage (12) is fixedly connected with one side of the inner cavity of the studio (1) far away from the control hall (11), and the surface of the induction stage (12) is fixedly connected with a platform (13);

a capturing device (2) for capturing the motion trail of the body of the user on the sensing stage (12);

the method is characterized in that:

the radiating device (3), the radiating device (3) comprises a side fixing frame (31), the surface of the side fixing frame (31) is fixedly connected with one side of the inner cavity of the studio (1), the inner cavity of the side fixing frame (31) is rotationally connected with a vertical rotating rod (32), two sides of the surface of the vertical rotating rod (32) are fixedly connected with oblique guide plates, the top end of the vertical rotating rod (32) is rotationally connected with a bundling rotating sleeve (33), one side of the surface of the bundling rotating sleeve (33) close to the capturing device (2) is slidingly connected with a clamping sliding block (34), the bottom end of the clamping sliding block (34) is slidingly connected with an external sliding rail (35), and two ends of the inner cavity of the external sliding rail (35) are rotationally connected with a control rotating rod (36);

drainage device (4), drainage device (4) include adherence baffle (41), the middle part sliding connection of adherence baffle (41) inner chamber has vertical bundling plate (42), one side sliding connection that is close to catching utensil (2) on vertical bundling plate (42) surface has switching connecting rod (47), one end fixedly connected with clamp block (6) that wall baffle (41) was kept away from to switching connecting rod (47), the inner chamber sliding connection of vertical bundling plate (42) has sliding sleeve (43), spring washer (44) have been cup jointed on the surface of sliding sleeve (43), the bottom sliding connection of vertical bundling plate (42) has spacing base platform (45), the both sides of spacing base platform (45) inner chamber all sliding connection has buffer spring (46);

the center table (5), center table (5) includes support shell (51), the both sides of support shell (51) inner chamber all sliding connection has atress sliding frame (52), the both sides at support shell (51) inner chamber top all are through running through grooving fixedly connected with filter (55), the one side that is close to filter (55) of atress sliding frame (52) inner chamber is fixedly connected with runs through shell (53), the middle part rotation that runs through shell (53) inner chamber is connected with turbine bull stick (54), one side that is kept away from filter (55) of atress sliding frame (52) inner chamber sliding connection has from opening device (7);

the bottom end of the vertical rotating rod (32) is rotationally connected with the bottom of the inner cavity of the side fixing frame (31), vertical cutting grooves are uniformly formed in one side, close to the capturing device (2), of the surface of the bundling rotating sleeve (33), the surface of the bundling rotating sleeve (33) is mutually clamped with the surface of the clamping sliding block (34) through the vertical cutting grooves, and the bottom of the external sliding rail (35) is fixedly connected with the top of the surface of the studio (1);

the two sides of the surface of the studio (1) are fixedly connected with air blowers (37), the inner cavity of each air blower (37) completely covers one side, far away from the capturing device (2), of each side fixing frame (31), two ends of each supporting shell (51) are opposite to the bottom of each side fixing frame (31), and the surface of each control rotating rod (36) is fixedly connected with the bottom end of each clamping sliding block (34) through a traction belt;

the bottom of studio (1) inner chamber symmetry has seted up the bottom incision, and the bottom incision just is to the lower surface of filter (55), run through the outside that the bottom of shell (53) extends to atress sliding frame (52), run through the bottom of shell (53) and the inner chamber sliding connection of supporting shell (51), the top fixedly connected with photographic apparatus of supporting shell (51).

2. The virtual studio device with good heat dissipation as defined in claim 1, wherein: the capturing device comprises a controller (21), wherein the bottom of an inner cavity of the controller (21) is slidably connected with a vertical telescopic rod, the bottom end of the vertical telescopic rod is fixedly connected with an adjusting frame (22), one end of the adjusting frame (22) away from the controller (21) is fixedly connected with a monitor (23), one end of the inner cavity of the monitor (23) away from the adjusting frame (22) is fixedly connected with a capturing lens (24), the surface of the monitor (23) is rotationally connected with an auxiliary rotating rod (25), and the top of the controller (21) is rotationally connected with the top of the inner cavity of a studio (1).

3. The virtual studio device with good heat dissipation as defined in claim 1, wherein: the clamping block (6) comprises a filling block shell (61), an axle center cutting groove is formed in the axle center of the inner cavity of the filling block shell (61), two ends of the axle center cutting groove extend to the outside of the filling block shell (61), a spring clamping plate (62) is connected to the middle of the inner cavity of the filling block shell (61) in a sliding mode, and round-head sliding plates (63) are connected to two ends of the inner cavity of the spring clamping plate (62) in a sliding mode.

4. A virtual studio device with good heat dissipation as defined in claim 3, wherein: the surface of filling block shell (61) extrudes each other with one side on induction stage (12) surface, the surface of filling block shell (61) and the inner chamber fixed connection of studio (1), the one end that wall baffle (41) was kept away from to switching connecting rod (47) and the inner chamber sliding connection of filling block shell (61), the one end fixedly connected with joint slide (64) that wall baffle (41) was kept away from to switching connecting rod (47), the one end of button head slide (63) extends to the outside of filling block shell (61).

5. The virtual studio device with good heat dissipation as defined in claim 1, wherein: from opening device (7) including light shell (71), one side fixedly connected with power strip (72) that filter (55) was kept away from to light shell (71) inner chamber, one side fixedly connected with spring inserted bar (73) that light shell (71) inner chamber is close to filter (55), the both ends of light shell (71) inner chamber all fixedly connected with extension guide arm (74), the one end fixedly connected with torsion motor (56) of extension guide arm (74), the other end sliding connection of extension guide arm (74) has external guide arm (75).

6. The virtual studio equipment with good heat dissipation as defined in claim 5, wherein: the inner cavity of the torsion motor (56) is rotationally connected with one end of the turbine rotating rod (54), the surface of the torsion motor (56) is fixedly connected with one end of the inner cavity of the penetrating shell (53), the surface of the light shell (71) is fixedly connected with the bottom of the inner cavity of the studio (1), and the top end of the external guide rod (75) is in sliding connection with the interface of the power panel (72).