CN212869225U - Shooting device for photography and video shooting - Google Patents

Abstract

The utility model relates to a photographic shooting device that makes a video recording belongs to camera equipment technical field. The utility model discloses a shooting device for photography and video shooting, which comprises a slide rail and a base arranged on the slide rail, wherein a bracket is arranged on the base, a camera base is arranged on the bracket, the camera base comprises a left and right adjusting mechanism and an upper and lower adjusting mechanism, the left and right adjusting mechanism comprises a first adjusting box, and a first turbine and a first worm which are matched with each other are arranged in the first adjusting box; the upper and lower adjusting mechanism comprises a second adjusting box, and a second turbine and a second worm which are matched with each other are arranged in the second adjusting box; a camera base for arranging a camera is fixedly connected to the second turbine shaft; the first and second worms are in transmission connection with a first and second driving mechanism; the box cover of the second adjusting box is an arc-shaped plate, and the axis of the arc-shaped plate is parallel to or coincided with the axis of the second turbine shaft. The utility model discloses a photography and vedio recording is with shooting device is more accurate to the angle modulation of camera, and the control range is bigger.

Description

Shooting device for photography and video shooting

Technical Field

The utility model relates to a photographic shooting device that makes a video recording belongs to camera equipment technical field.

Background

When shooting movie and TV shows, a camera shooting rail device is generally needed to be used in a shooting site, and generally the camera shooting rail device comprises a rail car and a camera shooting rail, wherein the rail car is used for carrying the camera shooting device to run on the camera shooting rail, so that people or scenes are shot. The rail car is connected with the slide rail in a sliding way through a rolling pulley at the lower end so as to realize the movement of the rail car along the established route of the slide rail.

In general, when shooting a movie or a television, a photographer fixes a tripod on a rail car, stands on the rail car, and moves the shooting with the photographer on the rail car. The rail car is generally moved by manual pushing, so that the labor is consumed, and the pushing speed of a person is not easy to control.

In order to solve the above problems, the utility model with the publication number of CN203224711U discloses an electric walking device for photography and video camera, comprising a rail car, a slide rail, a transverse connecting band and a transverse shaft, wherein two parallel slide rails are fixedly connected by the transverse shaft, the adjacent transverse shaft is fixedly connected by the transverse connecting band, the rail car is slidably connected with the slide rail by a rolling pulley at the lower end, the electric driving device for rail car comprises a driving motor, a driving roller and a control switch, the driving roller is waist-shaped, the waist-shaped surface of the driving roller is matched with the arc-shaped surface of the slide rail, the driving motor and the control switch are respectively fixed on the rail car, the driving motor is connected with the control switch, the driving roller is fixed on the output shaft of the driving motor, the driving roller is arranged at one side of the slide rail and is contacted with the slide rail, the control switch, the driving motor is connected with the control switch, when the camera shooting is needed to be moved, a photographer directly presses the control switch, and the rail car is driven by the driving motor to move along the sliding rail through the driving roller.

The rail car in the above-mentioned patent can electric drive, and it is even to remove, still laborsaving. However, in this type of rail car, a photographer stands on the rail car and manually adjusts the camera by the camera adjustment mechanism to perform shooting. When a movie or a television is shot, in order to pursue a visual effect, multiple dimensions of a camera generally need to be rotated at the same time, and the problem that accurate adjustment cannot be performed often exists by manually adjusting the angle of a lens of the camera.

SUMMERY OF THE UTILITY MODEL

The utility model provides a photographic shooting device for making a video recording to the unable accurate angle of adjustment's of camera problem among the solution prior art.

The utility model provides an above-mentioned technical problem adopted technical scheme as follows:

a shooting device for photography and video shooting comprises a slide rail and a base arranged on the slide rail, wherein a support is arranged on the base, a camera base is arranged on the support, the camera base comprises a left-right adjusting mechanism and an up-down adjusting mechanism, the left-right adjusting mechanism comprises a first adjusting box connected with the support, a first turbine and a first worm which are matched with each other are arranged in the first adjusting box, and a first turbine shaft is fixedly connected to the first turbine; the upper and lower adjusting mechanism comprises a second adjusting box fixedly connected with the first turbine shaft, a second turbine and a second worm which are matched with each other are arranged in the second adjusting box, and the second turbine is fixedly connected with a second turbine shaft; the second turbine shaft is perpendicular to the second turbine shaft; a camera base for arranging a camera is fixedly connected to the second turbine shaft; the first worm is in transmission connection with a first driving mechanism, and the second worm is in transmission connection with a second driving mechanism; the second adjusting box comprises a box cover, the box cover is an arc-shaped plate, and the axis of the arc-shaped plate is parallel to or coincided with the axis of the second turbine shaft.

The first driving mechanism is a first motor, and a first motor switch is connected to the first motor; the second driving mechanism is a second motor, and a second motor switch is connected to the second motor.

The shooting device for photography and video shooting further comprises a controller, and the controller is connected with the first motor switch and the second motor switch to control the first motor and/or the second motor to run or stop.

The first adjusting box comprises a first box bottom plate and four first side plates connected with the first box bottom plate, the first box bottom plate is connected with the support, two opposite first side plates in the four first side plates are connected with a first worm in a rotating matching mode, and the other two opposite first side plates in the four first side plates are connected with a first turbine shaft in a rotating matching mode.

The first adjusting box comprises a first box bottom plate, a first worm fixing plate and a first turbine fixing plate are fixedly arranged on the first box bottom plate, the lower end of the first worm fixing plate is fixedly connected with the first box bottom plate, and the upper end of the first worm fixing plate is in rotating fit with the first worm; the lower end of the first turbine fixing plate is fixedly connected with the first box bottom plate, and the upper end of the first turbine fixing plate is in running fit with the first turbine shaft.

The second adjusting box comprises a second box bottom plate and four second side plates connected with the second box bottom plate, the second box bottom plate is connected with the support, two opposite second side plates in the four second side plates are connected with a second worm in a rotating fit mode, and the other two opposite second side plates in the four second side plates are connected with a second turbine shaft in a rotating fit mode.

The second adjusting box comprises a second box bottom plate, a second worm fixing plate and a second turbine fixing plate are fixedly arranged on the second box bottom plate, the lower end of the second worm fixing plate is fixedly connected with the second box bottom plate, and the upper end of the second worm fixing plate is in rotating fit with the second worm; the lower end of the second turbine fixing plate is fixedly connected with the second box bottom plate, and the upper end of the second turbine fixing plate is in running fit with the second turbine shaft.

The utility model discloses a photographic camera shooting device is through setting up control adjustment mechanism and upper and lower adjustment mechanism to adjust the camera about and the angular adjustment of two upper and lower dimensions through two sets of turbine worm mechanisms of drive, it is higher to adjust the precision. And the box cover of the second adjusting box is arranged to be a circular arc-shaped plate, and the axis of the circular arc-shaped plate is parallel to or coincided with the axis of the second turbine shaft. On one hand, the space of the second turbine in the second box body is more fully utilized, and on the other hand, the rotation range of the camera base is larger and is not influenced by the second adjusting box.

Drawings

Fig. 1 is a schematic structural view of a photographing device for photography according to the present invention;

fig. 2 is a schematic structural view of a camera adjusting mechanism of the photographing device for photographing and videography according to the present invention;

FIG. 3 is an enlarged view of a portion of area A of FIG. 2;

fig. 4 is a schematic structural view of the camera adjustment mechanism.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention easier to understand, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-4, the camera device of the present invention comprises a slide rail 1 laid on the surface of the photographic base (such as the ground), a shooting base is disposed on the slide rail, the shooting base comprises a base body 2, and a pulley 3 guided to move and matched with the slide rail is disposed on the lower surface of the base body 2.

The base body 2 is provided with a support, the support comprises a stand column 4 arranged on the base body 2, and the top end of the stand column 4 is provided with a camera adjusting mechanism 5.

The camera adjustment mechanism includes a left-right adjustment mechanism 51 and an up-down adjustment mechanism 52.

The left-right adjusting mechanism comprises a first adjusting box 511, and a first worm wheel 512 and a first worm 513 matched with the first worm wheel are arranged in the first adjusting box. The first regulation box 511 includes a first box bottom and four side plates fixed on the first box bottom. The two opposite side plates which are sequentially arranged along the length direction of the slide rail are provided with a first worm 513, two ends of the first worm 513 are respectively in running fit with the two corresponding side plates, and the length direction of the first worm 513 is consistent with the length direction of the slide rail. A first motor 514 is provided on an outer surface of one of the side plates, and an output shaft of the first motor 514 is connected to the first worm 513.

The other two opposite side plates of the first adjusting box are provided with a first turbine shaft, and a first turbine 512 is fixedly arranged on the first turbine shaft. Two ends of the first turbine shaft are respectively in running fit with the corresponding side plates. The first turbine shaft is arranged above the first worm and is perpendicular to the first worm.

The up-down adjusting mechanism comprises a second adjusting box, and a second worm gear 521 and a second worm 522 matched with the second worm gear are arranged in the second adjusting box. The second regulating box comprises a second box bottom and four side plates fixed on the second box bottom. Wherein, the two side plates which are arranged in sequence along the direction vertical to the length direction of the slide rail are provided with a second worm 522. The two ends of the second worm 522 are respectively matched with the two side plates in a rotating manner, and the length direction of the second worm 522 is perpendicular to the length direction of the slide rail. A second motor 523, the output shaft of which is connected to the second worm 522, is provided on one outer surface of the two side plates of the second adjustment box.

A second turbine shaft is arranged on the other two opposite side plates of the second adjusting box, and a second turbine 521 is fixedly arranged on the second turbine shaft. Two ends of the second turbine shaft are respectively in running fit with the corresponding side plates. The second turbine shaft is disposed above the second worm 522 and perpendicular to the second worm 522.

Two first rotating plates are arranged on the lower surface of the box bottom of the second adjusting box, and the shape of each first rotating plate is approximately an inverted isosceles triangle. The first rotating plate is disposed in a vertical direction. The positions corresponding to the vertexes of the isosceles triangles are provided with first fixing holes, and the first turbine shafts penetrate through the first fixing holes of the two first rotating plates and are fixedly connected with the first rotating plates. The top of the first rotating plate is fixedly connected with the lower surface of the second adjusting box. The first turbine 512 is disposed on the first turbine shaft at a location remote from the two first rotating plates. When the first worm 513 is driven by the first motor 514 to rotate, the first worm can drive the first worm wheel 512 to rotate, and the first rotating plate is driven to rotate by the first worm wheel shaft. The first rotating plate drives the box bottom of the second adjusting box to rotate, and then drives the second adjusting box and mechanisms in the second adjusting box to rotate in the left-right direction.

The second turbine shaft penetrates out of a corresponding side plate of the second adjusting box, and second rotating plates are fixedly arranged at two ends of the second turbine shaft penetrating out of the side plate respectively. The second rotating plate is also approximately shaped like an inverted isosceles triangle. And a second fixing hole is formed in the position, close to the vertex, of the isosceles triangle, and a second turbine shaft penetrates through the second fixing holes of the two second rotating plates and is fixedly connected with the second rotating plates. The up-down adjusting mechanism 52 further includes a camera fixing base, which is a plate-shaped structure. Two ends of the camera fixing seat of the plate-shaped structure are respectively fixedly connected with the top end of the second rotating plate. The upper surface of the camera fixing seat is provided with a connecting column connected with a camera, and the connecting column is connected with a camera 6.

The second worm 522 is driven by the second motor 523 to rotate, the second worm 522 drives the second turbine 521 to rotate, the second turbine 521 drives the second turbine shaft to rotate, and then the second rotating plate drives the camera fixing seat to rotate.

The first motor is connected with a first motor switch, and the second motor is connected with a second motor switch. The shooting device for shooting and videotaping further comprises a controller, wherein the controller is simultaneously connected with the first motor switch and the second motor switch and controls the first motor and the second motor to rotate through the controller.

The camera shooting device for camera shooting of this embodiment is when using, shoots the base and removes along the slide rail, and operating personnel passes through the first motor of controller control or the rotation of second motor simultaneously, and then realizes the rotation of camera in left and right directions or upper and lower direction to reach better shooting angle. The first motor and the second motor can be controlled by the controller to rotate simultaneously, so that better adjustment is realized.

In a preferred embodiment, a shooting stool is arranged on a base body of the shooting base, a shooting person sits on the shooting stool, and the first motor switch or the second motor switch is controlled to realize the adjustment of the camera in the left-right direction or the up-down direction. The controller may not be provided at this time.

In a preferred embodiment, the first worm and the first turbine shaft are not provided on the side plate of the first regulation case, but the first worm fixing plate and the first turbine fixing plate are provided separately. The first worm fixing plates are arranged in parallel at intervals in the direction perpendicular to the first worm. The lower end of the first worm fixing plate is fixedly connected with the box bottom of the first adjusting box, and the upper end of the first worm fixing plate is in running fit with the first worm. Similarly, the first turbine fixing plates are sequentially arranged in parallel at intervals along the direction vertical to the first turbine shaft, the lower ends of the first turbine fixing plates are fixed at the bottom of the first adjusting box, and the upper ends of the first turbine fixing plates are in running fit with the first turbine shaft.

In a preferred embodiment, the second worm and the second turbine shaft are not provided on the side plate of the second regulation case, but a second worm fixing plate and a second turbine fixing plate are provided separately. The second worm fixing plates are arranged in parallel at intervals in the direction perpendicular to the second worm. The lower end of the second worm fixing plate is fixedly connected with the box bottom of the second adjusting box, and the upper end of the second worm fixing plate is in running fit with the second worm. Similarly, the second turbine fixing plates are sequentially arranged in parallel at intervals along the direction vertical to the second turbine shaft, the lower ends of the second turbine fixing plates are fixed at the bottom of the second adjusting box, and the upper ends of the second turbine fixing plates are in running fit with the second turbine shaft.

In a preferred embodiment, the second motor is disposed at an end of the second scroll near the first turbine shaft to which the first turbine is mounted. The second motor and the first turbine are arranged in sequence in the horizontal direction or in sequence in the vertical direction.

In a preferred embodiment, the second adjusting box comprises a box cover, and the box cover is a circular arc-shaped plate. The axis of the arc-shaped plate is parallel to or coincident with the axis of the second turbine shaft.

Claims (7)

1. A shooting device for photography and video shooting comprises a slide rail and a base arranged on the slide rail, wherein a support is arranged on the base, and a camera adjusting mechanism is arranged on the support; the upper and lower adjusting mechanism comprises a second adjusting box fixedly connected with the first turbine shaft, a second turbine and a second worm which are matched with each other are arranged in the second adjusting box, and the second turbine is fixedly connected with a second turbine shaft; the second turbine shaft is perpendicular to the second turbine shaft; a camera base for arranging a camera is fixedly connected to the second turbine shaft; the first worm is in transmission connection with a first driving mechanism, and the second worm is in transmission connection with a second driving mechanism; the second adjusting box comprises a box cover, the box cover is an arc-shaped plate, and the axis of the arc-shaped plate is parallel to or coincided with the axis of the second turbine shaft.

2. The image capturing apparatus as claimed in claim 1, wherein the first driving mechanism is a first motor, and a first motor switch is connected to the first motor; the second driving mechanism is a second motor, and a second motor switch is connected to the second motor.

3. The camera of claim 2, further comprising a controller coupled to the first motor switch and the second motor switch to control the first motor and/or the second motor to operate or stop.

4. The image capturing device as claimed in claim 1, wherein the first adjusting box includes a first box bottom plate and four first side plates connected to the first box bottom plate, the first box bottom plate is connected to the bracket, two opposite first side plates of the four first side plates are connected to the first worm in a rotationally engaged manner, and the other two opposite first side plates of the four first side plates are connected to the first turbine shaft in a rotationally engaged manner.

5. The shooting device for photography and camera shooting according to claim 1, wherein the first adjusting box comprises a first box bottom plate, a first worm fixing plate and a first turbine fixing plate are fixedly arranged on the first box bottom plate, the lower end of the first worm fixing plate is fixedly connected with the first box bottom plate, and the upper end of the first worm fixing plate is in running fit with the first worm; the lower end of the first turbine fixing plate is fixedly connected with the first box bottom plate, and the upper end of the first turbine fixing plate is in running fit with the first turbine shaft.

6. The camera device of claim 1, wherein the second adjustment box comprises a second bottom plate and four second side plates connected to the second bottom plate, the second bottom plate is connected to the bracket, two opposite second side plates of the four second side plates are rotatably connected to the second worm, and the other two opposite second side plates of the four second side plates are rotatably connected to the second turbine shaft.

7. The shooting device for photography and camera shooting according to claim 1, wherein the second adjusting box comprises a second box bottom plate, a second worm fixing plate and a second turbine fixing plate are fixedly arranged on the second box bottom plate, the lower end of the second worm fixing plate is fixedly connected with the second box bottom plate, and the upper end of the second worm fixing plate is in running fit with the second worm; the lower end of the second turbine fixing plate is fixedly connected with the second box bottom plate, and the upper end of the second turbine fixing plate is in running fit with the second turbine shaft.

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