CN111946961A - Intelligent variable-speed photographing mobile device - Google Patents

Abstract

The invention relates to the related field of photographic equipment, in particular to intelligent variable-speed photographic mobile equipment, which comprises a slide rail frame, wherein the lower end of the slide rail frame is provided with a fixing device used for fixing the slide rail frame on a horizontal ground, the fixing device comprises a height control chamber which is rotatably connected with a height control knob, the lower end of the height control chamber is connected with three photographic supporting rods, a slide rail is arranged in the slide rail frame, a camera can move in the horizontal direction for shooting, the effects of high-speed shooting and variable-speed shooting can be achieved by adjusting the moving speed of the camera during shooting, a rotating device is arranged on a camera support, the camera can be rotated during horizontal movement of the camera, and meanwhile, the rotating speed of the camera can be adjusted, so that the camera always focuses a photographic object during horizontal movement, or achieves a high-low lens effect required by a photographer, the diversity of shooting modes is realized; the whole shooting process is mechanically controlled, so that the labor is saved.

Description

Intelligent variable-speed photographing mobile device

Technical Field

The invention relates to the field of photographic equipment, in particular to an intelligent variable-speed photographic mobile device.

Background

The word of photography is from Greek meaning drawing with light. Photography refers to the process of recording images using a special device, and generally, a mechanical camera or a digital camera is used for photography. The photographing mobile device refers to a device that moves the entire camera along a certain path and speed during photographing.

At present, in small-scale photography, a photographer generally carries the camera to move, the stability of a lens of the camera is required to be higher in the moving process, when the photographer needs to rotate around a photographic object, the photographer with insufficient experience often cannot capture a desired picture, when the speed required by the photography is higher, manual photography cannot be achieved, and in addition, the effect of variable-speed photography cannot be achieved by manual photography.

Disclosure of Invention

The invention aims to provide an intelligent variable-speed photographing mobile device which can overcome the defects in the prior art, so that the practicability of the device is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: an intelligent variable-speed photography mobile device comprises a slide rail frame, wherein a fixing device used for fixing the slide rail frame on a horizontal ground is arranged at the lower end of the slide rail frame, the fixing device comprises a height control chamber which is rotatably connected with a height control turn button, three photography supporting rods are connected at the lower end of the height control chamber, when a photographer rotates the height control turn button, the photography supporting rods can rotate around the height control turn button, so that the height of the slide rail frame is changed, the slide rail frame is convenient for the photographer to set the slide rail frame at different horizontal heights, a slide rail rotating frame used for adjusting the angle of the slide rail frame is arranged above the height control chamber, a slide rail rotating ratchet piece control rod used for preventing the slide rail frame from rotating on the fixing device is arranged on the left side of the slide rail rotating frame, after the horizontal height of the slide rail frame is adjusted, the photographer can dial out the slide rail rotating ratchet piece control rod, the slide rail frame can rotate in the horizontal direction, a photographer manually rotates the slide rail frame to a desired angle and then dials back the slide rail rotation ratchet piece control rod to fix the slide rail frame, a power device for driving a camera to horizontally move and rotate is arranged in the slide rail frame, the power device comprises a camera rack supporting seat which can horizontally move above the slide rail frame, a camera rack for mounting the camera is rotatably arranged on the camera rack supporting seat, a sliding motor for providing power for the horizontal movement and rotation of the camera is arranged in the camera rack supporting seat, the sliding motor can drive the camera rack supporting seat to horizontally move along the slide rail frame, meanwhile, the sliding motor drives the camera to rotate above the camera rack supporting seat to realize multi-angle shooting, and the camera rack supporting seat is internally provided with a control device for controlling the horizontal movement speed of the camera rack supporting seat and the shooting speed The speed change device of the rotating speed of the camera comprises a sliding rheostat which is arranged in the camera stand supporting seat and used for controlling the moving speed of the camera, the sliding rheostat controls the moving speed of the camera stand supporting seat through controlling the power of a motor so as to control the horizontal moving speed of the camera, a variable speed V-shaped belt is arranged in the camera stand supporting seat in a transmission connection mode, V-shaped belt wheels on two sides of the variable speed V-shaped belt can move left and right, V-shaped belt wheels on two sides are close to each other, the rotating radius of the variable speed V-shaped belt is enlarged, the transmission ratio of the variable speed V-shaped belt is increased, the variable speed V-shaped belt controls the rotating speed of the camera to be increased, the V-shaped belt wheels to be far away, the rotating radius of the variable speed V-shaped belt is reduced, the transmission ratio of the variable speed V-shaped, the camera operator can control the moving speed and the rotating speed of the camera, the photographic screen is arranged at the upper end of the camera frame, photographic pictures can be put in real time, the camera operator can control the moving speed and the rotating speed of the camera conveniently, and finally the function of variable-speed shooting is achieved.

Further, the fixing device comprises a slide rail frame supporting seat fixedly connected and arranged at the lower end of the slide rail frame, a slide rail rotating frame is arranged at the lower end of the slide rail frame supporting seat in a rotating connection mode, a slide rail rotating cavity is arranged on the upper end wall of the slide rail rotating frame with an upward opening, a slide rail rotating ratchet connecting rod is fixedly connected and arranged at the lower end of the slide rail frame supporting seat in the slide rail rotating cavity, a slide rail rotating ratchet wheel is fixedly connected and arranged at the lower end of the slide rail rotating ratchet connecting rod, a slide rail rotating control cavity is arranged on the left opening of the left end wall of the slide rail rotating frame, a slide rail rotating ratchet piece control rod and a first slide rail rotating ratchet piece are arranged between the top wall and the bottom wall of the slide rail rotating control cavity in a rotating connection mode, the rear end of the slide rail rotating ratchet piece control rod is rotatably connected with the left end of the first slide rail rotating ratchet piece, and the right end of the first slide rail rotating, a second slide rail rotating ratchet piece is arranged on the front side end wall of the slide rail rotating cavity in a rotating connection mode and prevents the slide rail rotating ratchet wheel from rotating clockwise, a slide rail supporting connecting rod is fixedly connected to the lower end of the slide rail rotating frame, a height control chamber is fixedly connected to the lower end of the slide rail supporting connecting rod, a first height control worm shaft is arranged between a height control cavity arranged in the height control chamber and the right side of the height control chamber in a rotating connection mode, a height control rotating button is fixedly connected to the right side of the height control chamber of the first height control worm shaft, a second height control worm shaft is arranged between the top wall and the bottom wall of the height control chamber in a rotating connection mode, a first height control worm wheel is fixedly connected to the second height control worm shaft, and a worm part on the first height control worm shaft is meshed with the first height control worm wheel in the height control cavity, the worm rod part on the second height control worm shaft is meshed with three second height control worm wheels, the second height control worm wheels are rotatably connected with worm wheel fixing rings, worm wheel fixing connecting rods are fixedly connected between the worm wheel fixing rings and the front side end wall of the height control cavity, the lower ends of the second height control worm wheels are fixedly connected with photographing supporting rods, and photographing supporting rod seats are fixedly connected below the height control chamber of the photographing supporting rods, so that the fixing function of the invention is completed.

Further, the power device comprises a sliding cavity which is arranged on the upper end wall of the sliding rail frame in an upward opening manner, the bottom wall of the sliding cavity is fixedly connected with a helical gear rack, the left end wall and the right end wall of the sliding cavity are fixedly connected with a front sliding rail and a rear sliding rail, the sliding rails are slidably connected with a sliding rail sliding seat, a second sliding power cavity which penetrates through the upper end wall and the lower end wall of the sliding rail sliding seat is arranged in the sliding rail sliding seat, the front end wall and the rear end wall of the second sliding power cavity are rotatably connected with a second sliding helical gear rotating shaft, the second sliding helical gear rotating shaft is fixedly connected with a second sliding helical gear which is meshed with the helical gear rack, the upper end wall of the sliding rail sliding seat is fixedly connected with the camera frame supporting seat, a first sliding power cavity is arranged on the lower end wall of the camera frame supporting seat in a downward opening manner, and the bottom wall of the, a sliding motor is fixedly connected in the front side end wall of the first sliding power cavity, a sliding motor shaft is arranged at the rear end of the sliding motor in a power connection mode, a first sliding helical gear meshed with the second sliding helical gear is fixedly connected in the first sliding power cavity of the sliding motor shaft, a spline cavity is arranged in the rear side end wall of the first sliding helical gear with a backward opening, a spline is fixedly connected on the outer wall of the spline cavity, a first rotating power cavity is arranged at the rear side of the first sliding power cavity, a first rotating power rotating shaft is rotatably connected between the first rotating power cavity and the first sliding power cavity, a spline wheel meshed with the spline is fixedly connected in the first sliding power cavity of the first rotating power rotating shaft, and a first rotating power V-shaped belt wheel is fixedly connected in the first rotating power cavity of the first rotating power rotating shaft, the rear side is provided with a first variable speed V-shaped belt wheel, a second rotating power cavity is arranged above the first sliding power cavity, a second rotating power rotating shaft is arranged between the second rotating power cavity and the first rotating power cavity in a rotating connection mode, a second rotating power V-shaped belt wheel is fixedly connected in the first rotating power cavity by the second rotating power rotating shaft, a second variable speed V-shaped belt wheel is arranged on the rear side of the second rotating power V-shaped belt wheel, the second variable speed V-shaped belt wheel, the second rotating power V-shaped belt wheel, the first variable speed V-shaped belt wheel and the first rotating power V-shaped belt wheel are in transmission connection with the variable speed V-shaped belt, the second rotating power rotating shaft is fixedly connected in the inner part and is provided with a first rotating bevel gear, the upper end wall of the camera stand is rotatably connected with the camera stand, and a third rotating power rotating shaft is fixedly connected on the lower end wall of the camera stand, the third rotating power rotating shaft is fixedly connected with a second rotating bevel gear which is meshed with the first rotating bevel gear in the second rotating power cavity, a camera cavity is arranged in the camera rack, the camera is fixedly connected with the camera in the camera cavity, a camera screen support is fixedly connected with the inner end wall of the upper end of the camera rack, and the upper end of the camera screen support is fixedly connected with the camera screen to provide power required by the movement and rotation of the camera.

Further, the speed changing device comprises a sliding rheostat fixedly connected with the inside of the sliding motor, a second speed changing power cavity is arranged on the rear side of the first rotating power cavity, a first speed changing power rotating shaft is arranged between the second speed changing power cavity and the first rotating power cavity in a rotating connection mode, the first speed changing power rotating shaft is fixedly connected with the rear end of the first speed changing V-shaped belt wheel in the first rotating power cavity, a speed changing silk thread is fixedly connected between the front end of the first speed changing V-shaped belt wheel and the rear end of the first rotating power V-shaped belt wheel, the first speed changing power rotating shaft is rotatably connected with the front end of a first speed changing slide block arranged in the second speed changing power cavity in a sliding connection mode, a speed changing power threaded shaft is fixedly connected with the rear end wall of the first speed changing slide block, and a speed changing bevel gear penetrating through the front and rear end walls by the first rotating power cavity is arranged on the outer side of the first rotating power cavity A cavity, wherein a second speed change power bevel gear is arranged in the rotation cavity of the speed change bevel gear in a rotary connection manner, the second speed change power bevel gear is in threaded connection with the speed change power threaded shaft in the second speed change power cavity, a first speed change power cavity communicated with the upper end of the rotation cavity of the speed change bevel gear is arranged above the second speed change power cavity, a speed change motor is fixedly connected to the top wall of the first speed change power cavity, a speed change motor shaft is arranged at the lower end of the speed change motor in a power connection manner, the speed change motor shaft is fixedly connected with a first speed change power bevel gear meshed with the second speed change power bevel gear in the first speed change power cavity, a third speed change power cavity is arranged above the first speed change power cavity, and a second speed change power rotating shaft is arranged between the third speed change power cavity and the first speed change power cavity in a rotary connection manner, the second speed change power rotating shaft is arranged in the first rotating power cavity and fixedly connected with the rear side end wall of the second speed change V-shaped belt wheel, the second speed change power rotating shaft is arranged in the third speed change power cavity and rotatably connected with the front side end wall of a second speed change sliding block arranged in the third speed change power cavity in a sliding connection mode, and a speed change spring is fixedly connected between the rear side end wall of the second speed change sliding block and the rear side end wall of the third speed change power cavity to achieve the speed change function of the design.

The invention has the beneficial effects that: an intelligent variable-speed photographing mobile device is provided with a slide rail, a camera can move in the horizontal direction for photographing, the effects of high-speed photographing and variable-speed photographing can be achieved by adjusting the moving speed of the camera during photographing, a rotating device is arranged on a camera support, the camera can be rotated when the camera moves horizontally, and meanwhile, the rotating speed of the camera can be adjusted, so that the camera always focuses on a photographing object during horizontal movement, or a high-low lens effect desired by a certain photographer is achieved, and the diversity of photographing modes is realized; the whole shooting process is mechanically controlled, so that the labor is saved.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic diagram of an overall structure of an intelligent variable-speed photographing mobile device according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is an enlarged view of the structure at "B" of FIG. 2;

FIG. 4 is an enlarged view of the structure at "C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 4;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 4.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 6, for the sake of convenience of description, the following orientations are now defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an intelligent variable-speed photographing mobile device, which is mainly applied to photographing equipment, and the invention is further explained by combining the attached drawings of the invention.

The invention relates to an intelligent speed-changing photographing mobile device, which comprises a slide rail frame 10, wherein the lower end of the slide rail frame 10 is provided with a fixing device 991 for fixing the slide rail frame 10 on a horizontal ground, the fixing device 991 comprises a height control chamber 23 which is rotatably connected with a height control knob 30, the lower end of the height control chamber 23 is connected with three photographing support rods 24, when a photographer rotates the height control knob 30, the photographing support rods 24 can rotate around the height control knob 30, so that the height of the slide rail frame 10 is changed, the photographer can conveniently set the slide rail frame 10 at different horizontal heights, a slide rail rotating frame 22 for adjusting the angle of the slide rail frame 10 is arranged above the height control chamber 23, the left side of the slide rail rotating frame 22 is provided with a slide rail rotating ratchet control rod 39 for preventing the slide rail frame 10 from rotating on the fixing device 991, after the horizontal height of the slide rail frame 10 is adjusted, a photographer can dial out the slide rail rotation ratchet control rod 39 to enable the slide rail frame 10 to rotate in the horizontal direction, then the photographer can manually rotate the slide rail frame 10 to a desired angle and then dial back the slide rail rotation ratchet control rod 39 to fix the slide rail frame 10, a power device 992 for driving a camera 13 to horizontally move and rotate is arranged in the slide rail frame 10, the power device 992 comprises a camera frame supporting seat 16 which can horizontally move above the slide rail frame 10, a camera frame 11 for mounting the camera 13 is rotatably arranged on the camera frame supporting seat 16, a sliding motor 43 for providing power for the horizontal movement and rotation of the camera 13 is arranged in the camera frame supporting seat 16, and the sliding motor 43 can drive the camera frame supporting seat 16 to horizontally move along the slide rail frame 10, meanwhile, the sliding motor 43 drives the camera 13 to rotate above the camera frame support base 16 to realize multi-angle shooting, a speed change device 993 for controlling the horizontal movement speed of the camera frame support base 16 and the rotation speed of the camera 13 is arranged in the camera frame support base 16, the speed change device 993 comprises a sliding rheostat 44 arranged in the camera frame support base 16 and used for controlling the movement speed of the camera 13, the sliding rheostat 44 controls the movement speed of the camera frame support base 16 by controlling the power of the motor so as to control the horizontal movement speed of the camera 13, a variable speed V-shaped belt 73 is arranged in the camera frame support base 16 in a transmission connection mode, V-shaped belt wheels on two sides of the variable speed V-shaped belt 73 can move left and right, V-shaped belt wheels on two sides are close to each other, the rotation radius of the variable speed V-shaped belt 73 is enlarged, and the transmission ratio of the variable, the variable speed V-shaped belt 73 controls the rotating speed of the camera 13 to be increased, the V-shaped belt wheel is far away, the rotating radius of the variable speed V-shaped belt 73 is reduced, the transmission ratio of the variable speed V-shaped belt 73 is reduced, the variable speed V-shaped belt 73 controls the rotating speed of the camera 13 to be reduced, a photographer can control the moving speed and the rotating speed of the camera 13 through the variable speed device 993, the upper end of the camera frame 11 is provided with the photographing screen 15, a photographing picture can be put in real time, the photographer can control the moving speed and the rotating speed of the camera 13 conveniently, and finally the function of variable speed photographing is achieved.

Beneficially, the fixing device 991 includes a slide rail frame supporting seat 21 fixedly connected to the lower end of the slide rail frame 10, a slide rail rotating frame 22 rotatably connected to the lower end of the slide rail frame supporting seat 21, a slide rail rotating cavity 27 upwardly opened in the upper end wall of the slide rail rotating frame 22, a slide rail rotating ratchet connecting rod 26 fixedly connected to the lower end of the slide rail frame supporting seat 21 in the slide rail rotating cavity 27, a slide rail rotating ratchet 28 fixedly connected to the lower end of the slide rail rotating ratchet connecting rod 26, a slide rail rotating control cavity 42 leftwards opened in the left end wall of the slide rail rotating frame 22, a slide rail rotating ratchet piece control rod 39 and a first slide rail rotating ratchet piece 40 rotatably connected between the top wall and the bottom wall of the slide rail rotating control cavity 42, the rear end of the slide rail rotating ratchet piece control rod 39 is rotatably connected to the left end of the first slide rail rotating ratchet piece 40, the right end of the first slide rail rotation ratchet piece 40 is in contact with the slide rail rotation ratchet wheel 28 in the slide rail rotation cavity 27 and prevents the slide rail rotation ratchet wheel 28 from rotating anticlockwise, the front end wall of the slide rail rotation cavity 27 is rotatably connected with a second slide rail rotation ratchet piece 41 and prevents the slide rail rotation ratchet wheel 28 from rotating clockwise, the lower end of the slide rail rotation frame 22 is fixedly connected with a slide rail support connecting rod 29, the lower end of the slide rail support connecting rod 29 is fixedly connected with a height control chamber 23, a first height control shaft 31 is rotatably connected between a height control cavity 32 arranged in the height control chamber 23 and the right side of the height control chamber 23, the first height control worm shaft 31 is fixedly connected with a height control knob 30 arranged on the right side of the height control chamber 23, and a second height control worm shaft 34 is rotatably connected between the top wall and the bottom wall of the height control cavity 32, the second height control worm shaft 34 is fixedly connected with a first height control worm wheel 37, the worm part of the first height control worm shaft 31 is meshed with the first height control worm wheel 37 in the height control cavity 32, the worm part of the second height control worm shaft 34 is meshed with three second height control worm wheels 36, the second height control worm wheels 36 are rotatably connected with a worm wheel fixing ring 35, a worm wheel fixing connecting rod 38 is fixedly connected between the worm wheel fixing ring 35 and the front side end wall of the height control cavity 32, the lower end of each second height control worm wheel 36 is fixedly connected with a photographing support rod 24, and the photographing support rod 24 is fixedly connected with a photographing support rod seat 25 below the height control chamber 23 to complete the fixing function of the invention.

Beneficially, the power device 992 includes a sliding cavity 19 provided with an upward opening in the upper end wall of the sliding rail frame 10, a helical gear rack 20 is fixedly connected to the bottom wall of the sliding cavity 19, a front sliding rail 18 and a rear sliding rail 18 are fixedly connected to the left and right end walls of the sliding cavity 19, a sliding rail sliding seat 45 is slidably connected to the sliding rail 18, a second sliding power cavity 48 penetrating through the upper and lower end walls of the sliding rail sliding seat 45 is provided in the sliding rail sliding seat 45, a second sliding helical gear rotating shaft 47 is rotatably connected to the front and rear end walls of the second sliding power cavity 48, a second sliding helical gear 46 engaged with the helical gear rack 20 is fixedly connected to the second sliding helical gear rotating shaft 47, the camera frame supporting seat 16 is fixedly connected to the upper end wall of the sliding rail sliding seat 45, a first sliding power cavity 17 is provided in the lower end wall of the camera frame 16 with a downward opening, the bottom wall of the first sliding power cavity 17 is communicated with the top wall of the second sliding power cavity 48, the inner side end wall of the front side of the first sliding power cavity 17 is fixedly connected with a sliding motor 43, the rear end of the sliding motor 43 is dynamically connected with a sliding motor shaft 76, the sliding motor shaft 76 is fixedly connected with the inner side of the first sliding power cavity 17 and is provided with a first sliding helical gear 49 engaged with the second sliding helical gear 46, the inner side end wall of the rear side of the first sliding helical gear 49 is provided with a spline cavity 78 with a backward opening, the outer wall of the spline cavity 78 is fixedly connected with a spline 79, the rear side of the first sliding power cavity 17 is provided with a first rotating power cavity 56, the first rotating power cavity 56 is rotatably connected with the first sliding power cavity 17 and is provided with a first rotating power rotating shaft 75, the first rotating power rotating shaft 75 is fixedly connected with a spline wheel 77 engaged with the spline 79 in the first sliding power cavity 17, the first rotary power rotating shaft 75 is fixedly connected with a first rotary power V-shaped belt wheel 74 in the first rotary power cavity 56, the rear side is provided with a first speed-changing V-shaped belt wheel 72, a second rotary power cavity 50 is arranged above the first sliding power cavity 17, a second rotary power rotating shaft 54 is rotatably connected between the second rotary power cavity 50 and the first rotary power cavity 56, the second rotary power rotating shaft 54 is fixedly connected with a second rotary power V-shaped belt wheel 55 in the first rotary power cavity 56, the rear side of the second rotary power V-shaped belt wheel 55 is provided with a second speed-changing V-shaped belt wheel 57, the second rotary power V-shaped belt wheel 55, the first speed-changing V-shaped belt wheel 72 and the first rotary power V-shaped belt wheel 74 are in transmission connection with a speed-changing V-shaped belt 73, the second rotary power rotating shaft 54 is fixedly connected with a first rotary bevel gear 53 in the 0, the upper end wall of the camera stand supporting seat 16 is rotatably connected with the camera stand 11, the lower end wall of the camera stand 11 is fixedly connected with a third rotating power rotating shaft 51, the third rotating power rotating shaft 51 is fixedly connected with a second rotating bevel gear 52 which is meshed with the first rotating bevel gear 53 in the second rotating power cavity 50, a camera cavity 12 is arranged in the camera stand 11, the camera 13 is fixedly connected in the camera cavity 12, a photographic screen bracket 14 is fixedly connected in the upper end wall of the camera stand 11, and the upper end of the photographic screen bracket 14 is fixedly connected with the photographic screen 15 to provide power for moving and rotating the camera 13.

Advantageously, the speed changing device 993 comprises a slide rheostat 44 fixedly connected with the inside of the slide motor 43, a second speed changing power cavity 67 is arranged at the rear side of the first rotating power cavity 56, a first speed changing power rotating shaft 71 is arranged between the second speed changing power cavity 67 and the first rotating power cavity 56 in a rotating connection manner, the first speed changing power rotating shaft 71 is fixedly connected with the rear end of the first speed changing V-shaped belt pulley 72 in the first rotating power cavity 56, a speed changing wire 33 is arranged between the front end of the first speed changing V-shaped belt pulley 72 and the rear end of the first speed changing V-shaped belt pulley 74 in a fixed connection manner, the first speed changing power rotating shaft 71 is rotatably connected with the front end of a first speed changing slider 70 arranged in a sliding connection manner in the second speed changing power cavity 67, a speed changing power threaded shaft 68 is fixedly connected with the rear side end wall of the first speed changing slider 70, a speed change bevel gear rotating cavity 69 which is penetrated through the front and rear end walls by the first rotating power cavity 56 is arranged on the outer side of the first rotating power cavity 56, a second speed change bevel gear 66 is arranged in the speed change bevel gear rotating cavity 69 in a rotating connection mode, the second speed change bevel gear 66 is in threaded connection with the speed change power threaded shaft 68 in the second speed change power cavity 67, a first speed change power cavity 65 communicated with the upper end of the speed change bevel gear rotating cavity 69 is arranged above the second speed change power cavity 67, a speed change motor 62 is fixedly connected to the top wall of the first speed change power cavity 65, a speed change motor shaft 63 is arranged at the lower end of the speed change motor 62 in a power connection mode, a first speed change power bevel gear 64 meshed with the second speed change bevel gear 66 is fixedly connected to the speed change motor shaft 63 in the first speed change power cavity 65, and a third speed change power cavity 61 is arranged above the first speed change power cavity 65, the third speed changing power cavity 61 with rotate between the first power cavity 56 and be equipped with second variable speed power pivot 58, second variable speed power pivot 58 in first power cavity 56 with second variable speed V type band pulley 57 back side end wall fixed connection, second variable speed power pivot 58 in third power cavity 61 with third speed changing power cavity 61 sliding connection be equipped with the second variable speed slider 59 preceding side end wall rotation connection, second variable speed slider 59 back side end wall with fixed connection is equipped with variable speed spring 60 between the third speed changing power cavity 61 back side end wall to accomplish the variable speed function of this design.

The following describes in detail the usage steps of the intelligent variable-speed photography mobile device in the present document with reference to fig. 1 to 6: at the beginning, the lower end of the photographing support rod seat 25 contacts with the ground, the photographer rotates the height control rotating knob 30, the height control rotating knob 30 drives the first height control worm shaft 31 to rotate, the first height control worm shaft 31 drives the first height control worm wheel 37 to rotate, the first height control worm wheel 37 drives the second height control worm shaft 34 to rotate, the second height control worm shaft 34 drives the second height control worm wheel 36 to rotate, the second height control worm wheel 36 drives the photographing support rod 24 to rotate, the photographing support rod 24 drives the photographing support rod seat 25 to slide outwards, meanwhile, the photographing support rod 24 drives the second height control worm wheel 36 to change the height, the second height control worm wheel 36 drives the second height control worm wheel 34 to change the height, the second height control worm shaft 34 drives the height control chamber 23 to change the height, the height control chamber 23 drives the height of the part above the height control chamber 23 to change, after the proper height is adjusted, the photographer dials out the slide rail rotation ratchet piece control lever 39, the slide rail rotation ratchet piece control lever 39 drives the first slide rail rotation ratchet piece 40 to rotate, the rear end of the first slide rail rotation ratchet piece 40 is no longer in contact with the slide rail rotation ratchet 28, the slide rail frame 10 can drive the slide rail frame support base 21 to rotate counterclockwise, the slide rail frame support base 21 drives the slide rail rotation ratchet link 26 to rotate counterclockwise, the slide rail rotation ratchet link 26 drives the slide rail rotation ratchet 28 to rotate counterclockwise, after the photographer manually rotates the slide rail frame 10 to the proper position, the photographer dials back the slide rail rotation ratchet piece control lever 39, the slide rail rotation ratchet piece control lever 39 drives the first slide rail rotation ratchet piece 40 to rotate, the first slide rail rotation ratchet piece 40 is again in contact with the slide rail rotation ratchet 28 and prevents the slide rail from rotating The ratchet 28 rotates, and the slide rail rotating ratchet 28 prevents the slide rail frame 10 from rotating, so that the slide rail frame 10 is fixed.

The sliding motor 43 is started, the sliding motor 43 drives the sliding motor shaft 76 to rotate, the sliding motor shaft 76 drives the first sliding helical gear 49 to rotate, the first sliding helical gear 49 drives the second sliding helical gear 46 to rotate, the sliding cavity 19 pushes the second sliding helical gear 46 to move, the second sliding helical gear 46 drives the second sliding helical gear rotating shaft 47 to move, the second sliding helical gear rotating shaft 47 drives the sliding rail sliding seat 45 to move, the sliding rail sliding seat 45 drives the camera frame supporting seat 16 to move, the camera frame supporting seat 16 drives the camera frame 11 to move, the camera frame 11 drives the camera 13 and the camera screen bracket 14 to move, the camera screen bracket 14 drives the camera screen 15 to move, and meanwhile, the first sliding helical gear 49 drives the spline 79 to rotate, the spline 79 drives the spline wheel 77 to rotate, the spline wheel 77 drives the first rotary power rotating shaft 75 to rotate, the first rotary power rotating shaft 75 drives the first rotary power V-shaped belt pulley 74 to rotate, the first rotary power V-shaped belt pulley 74 drives the variable speed V-shaped belt 73 to rotate, the variable speed V-shaped belt 73 drives the second rotary power V-shaped belt pulley 55 to rotate, the second rotary power V-shaped belt pulley 55 drives the second rotary power rotating shaft 54 to rotate, the second rotary power rotating shaft 54 drives the first rotary bevel gear 53 to rotate, the first rotary bevel gear 53 drives the second rotary bevel gear 52 to rotate, the second rotary bevel gear 52 drives the third rotary power rotating shaft 51 to rotate, the third rotary power rotating shaft 51 drives the camera frame 11 to rotate, the camera frame 11 drives the camera 13 and the camera screen support 14 to rotate, the camera screen bracket 14 drives the camera screen 15 to rotate.

When the acceleration movement is required, the slide rheostat 44 controls the output power of the slide motor 43 to increase, the slide motor 43 drives the rotation speed of the slide motor shaft 76 to increase, the slide motor shaft 76 drives the rotation speed of the first slide bevel gear 49 to increase, the first slide bevel gear 49 drives the rotation speed of the second slide bevel gear 46 to increase, the bevel gear rack 20 pushes the slide rail slide carriage 45 to increase the movement speed, the slide rail slide carriage 45 drives the camera 13 to increase the movement speed, when the deceleration movement is required, the slide rheostat 44 controls the output power of the slide motor 43 to decrease, the slide motor 43 controls the movement speed of the camera 13 to decrease, when the acceleration movement is required, the variable speed motor 62 rotates forwards, the variable speed motor 62 drives the variable speed motor shaft 63 to rotate forwards, the variable speed motor shaft 63 drives the first variable speed power bevel gear 64 to rotate forwards, the first variable-speed power bevel gear 64 drives the second variable-speed power bevel gear 66 to rotate forward, the second variable-speed power bevel gear 66 drives the variable-speed power threaded shaft 68 to move forward, the variable-speed power threaded shaft 68 drives the first variable-speed slider 70 to move forward, the first variable-speed slider 70 drives the first variable-speed V-shaped belt pulley 72 to move forward, the first variable-speed V-shaped belt pulley 72 pushes the variable-speed V-shaped belt 73 at the lower end of the first rotating power cavity 56 to slide outward, the variable-speed V-shaped belt 73 at the upper end of the first rotating power cavity 56 to slide inward, the variable-speed V-shaped belt 73 pushes the second variable-speed V-shaped belt pulley 57 to move backward, the second variable-speed power rotating shaft 58 drives the second variable-speed power rotating shaft 58 to move backward, and the second variable-speed power rotating shaft 58 drives the second variable-speed slider 59 to slide backward, the speed-changing spring 60 is compressed, the transmission ratio of the speed-changing V-belt 73 is increased, the speed-changing V-belt 73 drives the second rotating V-belt pulley 55 to increase the rotation speed, when the rotation speed needs to be reduced, the speed-changing motor 62 rotates in reverse, the speed-changing motor 62 drives the first speed-changing V-belt pulley 72 to move backward, the speed-changing spring 60 pushes the second speed-changing slider 59 to move forward, the second speed-changing slider 59 drives the second speed-changing power rotating shaft 58 to move forward, the second speed-changing power rotating shaft 58 drives the second speed-changing V-belt pulley 57 to move forward, the second speed-changing V-belt pulley 57 pushes the speed-changing V-belt 73 at the upper end of the first rotating power cavity 56 to slide outward, and drives the speed-changing V-belt 73 at the lower end of the first rotating power cavity 56 to slide inward, the transmission ratio of the variable speed V-belt 73 is reduced, the variable speed V-belt 73 drives the second rotational power V-belt pulley 55 to rotate at a reduced speed, the second rotational power V-belt pulley 55 drives the camera 13 to rotate at a reduced speed, when the first variable speed V-belt pulley 72 moves backward to the rearmost end, the variable speed thread 33 is straightened, the first variable speed V-belt pulley 72 drives the first rotational power V-belt pulley 74 to move backward, the first rotational power V-belt pulley 74 drives the first rotational power shaft 75 to move backward, the first rotational power shaft 75 drives the spline wheel 77 to move backward out of the spline cavity 78, the spline 79 and the spline wheel 77 are no longer in contact, the first sliding helical gear 49 no longer drives the spline wheel 77 to rotate, the variable speed V-belt 73 stops rotating, the camera 13 only moves horizontally and does not rotate any more, after the variable speed motor 62 rotates forward, the first variable speed V-belt pulley 72 moves forward, the first variable speed V-belt pulley 72 drives the variable speed V-belt 73 to move forward, the variable speed V-belt 73 drives the first rotary power V-belt pulley 74 to move forward, the first rotary power V-belt pulley 74 drives the first rotary power shaft 75 to move forward, and the first rotary power shaft 75 drives the spline wheel 77 to move forward and enter the spline cavity 78. The spline wheel 77 is in contact with the spline 79 again, and the first sliding bevel gear 49 drives the camera 13 to rotate again, so that the variable-speed movement and rotation of the camera 13 are finally realized.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (4)

1. The utility model provides a photographic mobile device of intelligence variable speed, includes the slide rail frame, its characterized in that: the lower end of the slide rail frame is provided with a fixing device used for fixing the slide rail frame on a horizontal ground, the fixing device comprises a height control chamber which is rotatably connected with a height control knob, the lower end of the height control chamber is connected with three photographic supporting rods, when a photographer rotates the height control knob, the photographic supporting rods can rotate around the height control knob, so that the height of the slide rail frame is changed, the slide rail frame is convenient for the photographer to set the slide rail frame at different horizontal heights, a slide rail rotating frame used for adjusting the angle of the slide rail frame is arranged above the height control chamber, the left side of the slide rail rotating frame is provided with a slide rail rotating ratchet piece control rod used for preventing the slide rail frame from rotating on the fixing device, after the horizontal height of the slide rail frame is adjusted, the photographer can dial out the slide rail rotating ratchet piece control rod, so that the slide rail frame can rotate in the horizontal direction, then, a photographer manually rotates the slide rail frame to a desired angle and then dials back the slide rail rotation ratchet piece control rod to fix the slide rail frame, a power device for driving a camera to horizontally move and rotate is arranged in the slide rail frame, the power device comprises a camera rack supporting seat which can horizontally move and is arranged above the slide rail frame, a camera rack for mounting the camera is rotatably arranged on the camera rack supporting seat, a sliding motor for providing power for the horizontal movement and rotation of the camera is arranged in the camera rack supporting seat, the sliding motor can drive the camera rack supporting seat to horizontally move along the slide rail frame, meanwhile, the sliding motor drives the camera to rotate above the camera rack supporting seat to realize multi-angle shooting, and a speed change device for controlling the horizontal movement speed and the rotating speed of the camera rack supporting seat is arranged in the camera rack supporting seat, the speed change device comprises a sliding rheostat which is arranged in the camera stand supporting seat and used for controlling the moving speed of the camera, the sliding rheostat controls the moving speed of the camera stand supporting seat through controlling the power of a motor, so that the horizontal moving speed of the camera is controlled, a variable speed V-shaped belt is arranged in the camera stand supporting seat in a transmission connection mode, V-shaped belt wheels on two sides of the variable speed V-shaped belt can move left and right, V-shaped belt wheels on two sides are close to each other, the rotating radius of the variable speed V-shaped belt is enlarged, the transmission ratio of the variable speed V-shaped belt is increased, the variable speed V-shaped belt controls the rotating speed of the camera to be increased, the V-shaped belt wheels are far away, the rotating radius of the variable speed V-shaped belt is reduced, the transmission ratio of the variable speed V-shaped belt is reduced, the rotating speed of the variable speed V, the upper end of the camera frame is provided with the photographic screen, so that photographic pictures can be put in real time, a photographer can conveniently control the moving speed and the rotating speed of the camera, and finally the function of variable-speed shooting is realized.

2. The mobile device for intelligent variable speed photography of claim 1, wherein: the fixing device comprises a slide rail frame supporting seat fixedly connected and arranged at the lower end of the slide rail frame, a slide rail rotating frame is arranged at the lower end of the slide rail frame supporting seat in a rotating connection mode, a slide rail rotating cavity is arranged on the upper end wall of the slide rail rotating frame in an upward opening mode, a slide rail rotating ratchet wheel connecting rod is fixedly connected and arranged at the lower end of the slide rail frame supporting seat in the slide rail rotating cavity, a slide rail rotating ratchet wheel is fixedly connected and arranged at the lower end of the slide rail rotating ratchet wheel connecting rod, a slide rail rotating control cavity is arranged on the left end wall of the slide rail rotating frame in an leftward opening mode, a slide rail rotating ratchet piece control rod and a first slide rail rotating ratchet piece are arranged between the top wall and the bottom wall of the slide rail rotating control cavity in a rotating connection mode, the rear end of the slide rail rotating ratchet piece control rod is rotatably connected with the left end of the first slide rail rotating ratchet piece, the right end of, a second slide rail rotating ratchet piece is arranged on the front side end wall of the slide rail rotating cavity in a rotating connection mode and prevents the slide rail rotating ratchet wheel from rotating clockwise, a slide rail supporting connecting rod is fixedly connected to the lower end of the slide rail rotating frame, a height control chamber is fixedly connected to the lower end of the slide rail supporting connecting rod, a first height control worm shaft is arranged between a height control cavity arranged in the height control chamber and the right side of the height control chamber in a rotating connection mode, a height control rotating button is fixedly connected to the right side of the height control chamber of the first height control worm shaft, a second height control worm shaft is arranged between the top wall and the bottom wall of the height control chamber in a rotating connection mode, a first height control worm wheel is fixedly connected to the second height control worm shaft, and a worm part on the first height control worm shaft is meshed with the first height control worm wheel in the height control cavity, the worm rod part on the second height control worm shaft is meshed with three second height control worm wheels, the second height control worm wheels are rotatably connected with worm wheel fixing rings, worm wheel fixing connecting rods are fixedly connected between the worm wheel fixing rings and the front side end wall of the height control cavity, the lower ends of the second height control worm wheels are fixedly connected with photographing supporting rods, and photographing supporting rod seats are fixedly connected below the height control chamber of the photographing supporting rods, so that the fixing function of the invention is completed.

3. The mobile device for intelligent variable speed photography of claim 1, wherein: the power device comprises a sliding cavity which is arranged in the upper end wall of the sliding rail frame in an upward opening manner, the bottom wall of the sliding cavity is fixedly connected with a helical gear rack, the left end wall and the right end wall of the sliding cavity are fixedly connected with a front sliding rail and a rear sliding rail, the sliding rails are provided with a sliding rail sliding seat in a sliding manner, a second sliding power cavity which penetrates through the upper end wall and the lower end wall of the sliding rail sliding seat is arranged in the sliding rail sliding seat, the front end wall and the rear end wall of the second sliding power cavity are rotatably connected with a second sliding helical gear rotating shaft, the second sliding helical gear rotating shaft is fixedly connected with a second sliding helical gear which is meshed with the helical gear rack, the upper end wall of the sliding rail sliding seat is fixedly connected with the camera frame supporting seat, the inner opening of the lower end wall of the camera frame supporting seat is provided with a first sliding power cavity in a downward, a sliding motor is fixedly connected in the front side end wall of the first sliding power cavity, a sliding motor shaft is arranged at the rear end of the sliding motor in a power connection mode, a first sliding helical gear meshed with the second sliding helical gear is fixedly connected in the first sliding power cavity of the sliding motor shaft, a spline cavity is arranged in the rear side end wall of the first sliding helical gear with a backward opening, a spline is fixedly connected on the outer wall of the spline cavity, a first rotating power cavity is arranged at the rear side of the first sliding power cavity, a first rotating power rotating shaft is rotatably connected between the first rotating power cavity and the first sliding power cavity, a spline wheel meshed with the spline is fixedly connected in the first sliding power cavity of the first rotating power rotating shaft, and a first rotating power V-shaped belt wheel is fixedly connected in the first rotating power cavity of the first rotating power rotating shaft, the rear side is provided with a first variable speed V-shaped belt wheel, a second rotating power cavity is arranged above the first sliding power cavity, a second rotating power rotating shaft is arranged between the second rotating power cavity and the first rotating power cavity in a rotating connection mode, a second rotating power V-shaped belt wheel is fixedly connected in the first rotating power cavity by the second rotating power rotating shaft, a second variable speed V-shaped belt wheel is arranged on the rear side of the second rotating power V-shaped belt wheel, the second variable speed V-shaped belt wheel, the second rotating power V-shaped belt wheel, the first variable speed V-shaped belt wheel and the first rotating power V-shaped belt wheel are in transmission connection with the variable speed V-shaped belt, the second rotating power rotating shaft is fixedly connected in the inner part and is provided with a first rotating bevel gear, the upper end wall of the camera stand is rotatably connected with the camera stand, and a third rotating power rotating shaft is fixedly connected on the lower end wall of the camera stand, the third rotating power rotating shaft is fixedly connected with a second rotating bevel gear which is meshed with the first rotating bevel gear in the second rotating power cavity, a camera cavity is arranged in the camera rack, the camera is fixedly connected with the camera in the camera cavity, a camera screen support is fixedly connected with the inner end wall of the upper end of the camera rack, and the upper end of the camera screen support is fixedly connected with the camera screen to provide power required by the movement and rotation of the camera.

4. The mobile device for intelligent variable speed photography of claim 1, wherein: the speed change device comprises a slide rheostat fixedly connected in the slide motor, a second speed change power cavity is arranged at the rear side of the first rotation power cavity, a first speed change power rotating shaft is arranged between the second speed change power cavity and the first rotation power cavity in a rotating connection mode, the first speed change power rotating shaft is fixedly connected with the rear end of the first speed change V-shaped belt wheel in the first rotation power cavity, a speed change silk thread is fixedly connected between the front end of the first speed change V-shaped belt wheel and the rear end of the first rotation power V-shaped belt wheel, the first speed change power rotating shaft is rotatably connected with the front end of a first speed change slider arranged in the second speed change power cavity in a sliding connection mode, a speed change power threaded shaft is fixedly connected on the rear end wall of the first speed change slider, a speed change bevel gear rotating cavity which is penetrated through the front and rear end walls by the first rotation power cavity is arranged on the outer side of the first rotation power cavity, the speed change bevel gear is characterized in that a second speed change power bevel gear is arranged in a rotation cavity of the speed change bevel gear in a rotary connection manner, the second speed change power bevel gear is arranged in the second speed change power cavity and in threaded connection with a speed change power threaded shaft, a first speed change power cavity communicated with the upper end of the rotation cavity of the speed change bevel gear is arranged above the second speed change power cavity, a speed change motor is fixedly connected to the top wall of the first speed change power cavity, a speed change motor shaft is arranged at the lower end of the speed change motor in a power connection manner, the speed change motor shaft is fixedly connected in the first speed change power cavity and is provided with a first speed change power bevel gear meshed with the second speed change power bevel gear, a third speed change power cavity is arranged above the first speed change power cavity, a second speed change power rotating shaft is arranged between the third speed change power cavity and the first speed change power cavity in a rotary connection manner, and the rear side of the second speed change V-shaped The end wall is fixedly connected, the second variable-speed power rotating shaft is arranged in the third variable-speed power cavity and is in sliding connection with a second variable-speed sliding block front side end wall arranged in the third variable-speed power cavity in a rotating mode, and a variable-speed spring is fixedly connected between the second variable-speed sliding block rear side end wall and the third variable-speed power cavity rear side end wall to achieve the variable-speed function of the design.

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