CN210376974U - Technical camera body capable of moving shaft in two directions - Google Patents

Abstract

The utility model relates to the field of camera accessories, in particular to a technical camera body capable of bidirectionally moving a shaft, which comprises a body frame, wherein the front side surface of the body frame is provided with a downward bending plate, the rear side of the body frame is matched with an upward and downward shaft moving component, the rear side of the upward and downward shaft moving component is matched with a left shaft moving component and a right shaft moving component, the rear side of the left shaft moving component and the right shaft moving component is matched with a rotating component, the upper shaft moving component, the lower shaft moving component, the left shaft moving component, the right shaft moving component, the rotating component and the middle part of the body frame are coaxially; the technical camera body of the utility model is more compact, compact and practical, various large-format lenses and various digital backs can be combined together, the sharing degree of the camera body is improved, the structure is simple, the disassembly and assembly are rapid, and the positioning is stable and reliable; the depth of field of the shot object can be changed through the pitching function of the body, and the perspective of the shot object and the shaft shifting connecting pieces can be corrected through the horizontal and vertical shaft shifting functions; the machine body can rotate at an adjustable angle with a rotating component, and is more convenient for shooting transverse and vertical composition.

Description

Technical camera body capable of moving shaft in two directions

Technical Field

The utility model relates to a camera accessory field, in particular to can two-way shift technique camera fuselage.

Background

Most of the existing large-picture digital single lens reflex cameras directly assemble a lens and a back together, the lens and the back are generally replaced less, and the functions of the cameras are single; the body can not perform functions such as pitching and axis shifting, and can not meet the requirements of the pursuit of the extremely shooting person.

On the other hand, with the gradual modularization of the components of the large-format digital single lens reflex camera, the traditional single camera is generally split into three modules, namely a lens, a camera body and a back, and the camera body connects the lens and the back to form the complete camera. The camera enthusiasts expect that the large-format lens and the digital back of the traditional large-format images of different brands can be mutually combined for use, can perform various technical action functions, and fully explore the potential of the large-format lens and the digital back of the traditional large-format images. Therefore, it is necessary to design a camera body capable of shifting axes in two directions, which can combine digital backs, film backs and various lenses of different brands together by simple disassembly and assembly, so as to change the depth of field of the object to be photographed by the pitching function of the camera body, and correct the perspective of the object to be photographed and shift the axis splicing sheet by the horizontal and vertical axis shifting functions, thereby achieving a picture with ultra-high pixels.

SUMMERY OF THE UTILITY MODEL

The technical problem solved by the utility model is that, among the prior art, the large format digital single lens reflex camera of different brands can not do any technical action, can not satisfy various shooting demand scheduling problems.

The utility model adopts the technical scheme that a but technique camera fuselage of two-way shift shaft of compactness, high accuracy is provided, including the fuselage frame, its characterized in that: a downward bending plate is arranged on the front side surface of the machine body frame, and the downward bending plate and the machine body frame are matched with each other to be provided with a lens connecting assembly; the rear side of the body frame is provided with an upper shaft moving component and a lower shaft moving component in a matched mode, the rear side of the upper shaft moving component and the rear side of the lower shaft moving component are provided with a left shaft moving component and a right shaft moving component in a matched mode, the rear sides of the left shaft moving component and the right shaft moving component are provided with rotating components in a matched mode, through holes are coaxially formed in the middle of the upper shaft moving component, the lower shaft moving component, the left shaft moving component, the right shaft moving component, the rotating components.

Preferably, board rear side bottom of bowing down is articulated with the fuselage frame, board front end top of bowing down is equipped with first knob, be equipped with the screw hole on the fuselage frame, first knob with screw hole threaded connection.

Preferably, the vertical shaft moving component comprises a vertical shaft moving plate arranged on the rear side face of the fuselage frame, a through hole is formed in the middle of the vertical shaft moving plate, first sliding plate assemblies are arranged on the rear side face of the fuselage frame and the middle of the vertical shaft moving plate in a matching mode, any one of the first sliding plate assemblies comprises a first movable sliding rail and a first static sliding rail which are matched with each other, the first movable sliding rail is arranged on the vertical shaft moving plate, and the first static sliding rail is fixed on the fuselage frame.

Preferably, the body frame is provided with a second knob, the axis of the second knob is provided with a screw pair in a matching manner, one end of a screw of the screw pair is fixedly connected with the second knob, the other end of the screw abuts against the body frame, a nut sleeve of the screw pair is provided with a positioning piece, the positioning piece is fixed on the upper and lower moving shaft plates, the positioning piece is provided with a first pointer, and the body frame is correspondingly provided with a first graduated scale.

Preferably, the left and right shaft moving component comprises a left and right shaft moving plate arranged on the rear side surface of the upper and lower shaft moving plate, a through hole is arranged in the middle of the left and right shaft moving plate, second sliding plate components are arranged on the rear side surface of the upper and lower shaft moving plate and on two sides of the middle of the left and right shaft moving plate in a matching manner, any one of the second sliding plate components comprises a second movable sliding rail and a second static sliding rail which are matched with each other, the second movable sliding rail is arranged on the left and right shaft moving plate, and the second static sliding rail is fixed on the upper and lower shaft moving plate; and a second pointer is arranged on the side surface of the left and right shift plates, and a second graduated scale is correspondingly arranged on the body frame.

Preferably, a sliding button is arranged on the machine body frame, a gear is connected to the bottom of the sliding button, and racks meshed with the gear are arranged on the left and right shaft moving plates.

Preferably, the rotating component comprises a first fixing plate embedded in the middle of the rear end face of the left and right shift shaft plate, the through hole in the middle of the first fixing plate is a circular through hole, a first circular rotating plate is embedded in the front end face of the first fixing plate, a second circular rotating plate is embedded in the rear end face of the first fixing plate, and the first circular rotating plate and the second circular rotating plate are fixed through screws; the side of the first circular rotating plate is provided with a plurality of positioning grooves, the rear end face of the second circular rotating plate is fixedly provided with a second fixing plate, and the second fixing plate is connected with the mounting plate through screws.

Preferably, a plurality of buckles are arranged on the rear side face of the left and right shaft moving plate and are matched with the positioning grooves.

Preferably, the lens connecting assembly comprises a lens limiting piece and a lens lock catch, the lens limiting piece is arranged at the front end of the bottom of the through hole, and the lens lock catch is arranged on the front end face of the downward bending plate; the back connecting component comprises a supporting plate arranged on the lower portion of the back side face of the mounting plate and a hook plate arranged on the upper portion of the back side face of the mounting plate.

Preferably, a plurality of horizontal beads are arranged on the fuselage frame.

Compared with the prior art, the utility model discloses a technical camera fuselage is inseparabler, compact, practical, can combine together the large format camera lens of various specifications and the digital back of various models, improves the sharing degree of camera fuselage, simple structure, and the dismouting is rapid, and the location is reliable and stable; the depth of field of the shot object can be changed through the pitching function of the body, and the perspective of the shot object and the shaft shift splicing sheet are corrected through the transverse and vertical shaft shift functions, so that the ultrahigh-pixel picture is achieved; and the machine body is provided with a rotatable component which can adjust the angle to rotate, so that the horizontal and vertical composition shooting is more convenient, and the requirements of consumers are met.

Drawings

Fig. 1 is a schematic structural diagram of a camera body according to the present invention;

fig. 2 is a schematic structural diagram of a camera body according to the present invention;

fig. 3 is an exploded view of the camera body according to the present invention;

fig. 4 is an exploded view of the camera body according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following examples, but the scope of the present invention is not limited thereto.

As shown in fig. 1 to 4, the utility model relates to a technical camera body capable of bidirectional shaft shifting, which comprises a body frame 1, wherein a downward bending plate 2 is arranged on the front side surface of the body frame 1, and a lens connecting component 8 is arranged between the downward bending plate 2 and the body frame 1; the rear side of the fuselage frame 1 is provided with an upper and lower shaft moving component 3 in a matching manner, the rear side of the upper and lower shaft moving component 3 is provided with a left and right shaft moving component 4 in a matching manner, the rear side of the left and right shaft moving component 4 is provided with a rotating component 5 in a matching manner, the upper and lower shaft moving component 3, the left and right shaft moving component 4, the rotating component 5 and the middle of the fuselage frame 1 are coaxially provided with through holes 6, the rear side of the rotating component 5 is provided with a mounting plate 7, and the mounting plate 7 is provided with a back.

The utility model discloses in, through-hole 6 is the rectangular hole, is suitable for most camera.

The utility model discloses in, camera lens hookup subassembly 8 is used for the quick joint of camera lens, back hookup subassembly 9 is used for with digital back hookup, still can realize quick hookup with the film back.

The utility model discloses in, 2 rear side bottoms of board of bowing down are articulated with fuselage frame 1, 2 front end tops of board of bowing down are equipped with first knob 21, be equipped with screw hole 22 on the fuselage frame 1, first knob 21 with screw hole 22 threaded connection.

The user can rotate the first knob 21, and the dive plate 2 can dive a certain angle, so as to change the depth of field of the object to be photographed.

The utility model discloses in, the angle of board 2 of bowing down is 0 ~6, and the user can finely tune to different demands.

In the utility model, the upper side part of the lower bending plate 2 facing the fuselage frame 1 is provided with a graduated scale, when the lower bending plate 2 is in a bending state, the scale displayed on the graduated scale can correspond to the bending angle at that time in real time; similarly, the user can finely adjust according to the scale according to the requirement.

The utility model discloses in, move axle part 3 from top to bottom including the upper and lower axle board 31 that moves who locates the 1 trailing flank of fuselage frame, be equipped with through-hole 6 in the middle of the upper and lower axle board 31, the cooperation of both sides is equipped with first slide subassembly 32 in the middle of the 1 trailing flank of fuselage frame and the upper and lower axle board 31, arbitrary first slide subassembly 32 is including the first slide rail 321 and the first quiet slide rail 322 that move of mutually supporting, first slide rail 321 sets up on the upper and lower axle board 31, first quiet slide rail 322 is fixed on fuselage frame 1.

The utility model discloses in, up-down shift board 31 middle part is equipped with the rectangular hole, up-down shift board 31 freely slides on first slide subassembly 32, moves shaft part 3 reciprocating motion from top to bottom on the rear side surface of fuselage cradle 1 promptly to adjust the mutual position between rectangular hole and the through-hole 6, with the size and the position that change through-hole 6 between rectangular hole and the through-hole 6, reach the purpose of adjusting the formation of image position of camera back.

The utility model discloses in, be equipped with second knob 33 on fuselage frame 1, the cooperation of second knob 33 axle center department is equipped with the vice 34 of lead screw, lead screw 341 one end and the 33 fixed connection of second knob of the vice 34 of lead screw, the other end of lead screw 341 is supported and is established on fuselage frame 1, the nut 342 cover of the vice 34 of lead screw is equipped with spacer 35, spacer 35 is fixed on the axle plate 31 that moves from top to bottom, be equipped with first pointer 36 on spacer 35, the corresponding first scale 37 that is equipped with on fuselage frame 1.

The utility model discloses in, the user reaches the purpose of adjusting the vertical movement of axle through rotatory second knob 33, second knob 33 is the self-locking knob.

The utility model discloses in, Y axle direction is equipped with first scale 37 on fuselage frame 1, and when the axle board 31 was in the intermediate position from top to bottom, first pointer 36 instructed "0" scale of first scale 37, and the axle board 31 that moves from top to bottom upwards or moves the axle downwards, and the user can know the current axle distance that moves according to the scale that first pointer 36 instructed, more can come the fine tuning through the scale and move the axle distance from top to bottom.

The utility model discloses in, the upper and lower axle moving range of upper and lower axle moving plate 31 is for upwards moving 25mm, and 18mm move down, can satisfy most users' demand.

In the utility model, the left and right shaft moving component 4 comprises a left and right shaft moving plate 41 arranged on the rear side of the upper and lower shaft moving plate 31, a through hole 6 is arranged in the middle of the left and right shaft moving plate 41, the rear side of the upper and lower shaft moving plate 31 and the middle of the left and right shaft moving plate 41 are provided with a second sliding plate component 42 in a matching way, any one of the second sliding plate components 42 comprises a second movable sliding rail 421 and a second static sliding rail 422 which are mutually matched, the second movable sliding rail 421 is arranged on the left and right shaft moving plate 41, and the second static sliding rail 422 is fixed on the upper and lower shaft moving plate 31; a second pointer 43 is arranged on the side surface of the left and right shift shaft plate 41, and a second graduated scale 44 is correspondingly arranged on the body frame 1.

The utility model discloses in, it is equipped with the rectangular hole to control shift board 41 middle part, control shift board 41 and freely slide on second slide subassembly 42, control shift part 4 reciprocating motion about the rear side surface of fuselage cradle 1 promptly about promptly to adjust the mutual position between rectangular hole and the through-hole 6, with the size and the position that change through-hole 6 between rectangular hole and the through-hole 6, reach the purpose of adjusting the imaging position of camera back.

The utility model discloses in, be equipped with slide button 45 on fuselage frame 1, slide button 45 bottom is connected and is equipped with gear 46, control move the epaxial 41 be equipped with gear 46 meshed rack 47.

In the utility model discloses, slide button 45 is for controlling shift slide button 45, slide button 45 is the self-locking function.

In the utility model, the user drives the gear 46 to rotate by pushing the slide button 45, so as to reciprocate on the rack 47, thereby achieving the purpose of adjusting the left and right shift shafts.

In the utility model, a second graduated scale 44 is arranged on the body frame 1 in the X-axis direction, a second pointer 43 is arranged on the upper side surface of the left and right shift plate 41, and the second pointer 43 is arranged corresponding to the second graduated scale 44; when the left and right shift plate 41 is at the middle position, the second pointer 43 indicates the "0" scale of the second scale 44, the left and right shift plate 41 shifts left or right, the user can know the current shift distance according to the scale indicated by the second pointer 43, and can fine adjust the left and right shift distance through the scale.

The utility model discloses in, control the range of shifting axle about of shifting axle board 41 for shifting axle 20mm left, shift axle 20mm right, can satisfy most users' demand.

The utility model discloses in, move a part 3 from top to bottom and control and move a part 4 cooperation and use, can shoot big photo in same water flat line, but each photo that shoots through the shift axle distance of difference seamless connection does not have angular deviation scheduling problem.

In the utility model, the side of the body frame 1 is provided with an up-down shaft lock 11, which closes the shaft lock, and the up-down shaft moving part 3 can not move any more; the left and right shaft-moving sliding buttons 45 above the body frame 1 automatically lock the left and right shaft-moving parts 4 after releasing hands, thereby generating double safety for shaft moving and being more stable and reliable.

In the utility model, the rotating component 5 comprises a first fixing plate 51 embedded in the middle of the rear end face of the left and right shift shaft plate 41, the through hole 6 in the middle of the first fixing plate 51 is a circular through hole 6, a first circular rotating plate 52 is embedded on the front end face of the first fixing plate 51, a second circular rotating plate 53 is embedded on the rear end face of the first fixing plate 51, and the first circular rotating plate 52 and the second circular rotating plate 53 are fixed by screws; the side surface of the first circular rotating plate 52 is provided with a plurality of positioning grooves 521, the rear end surface of the second circular rotating plate 53 is fixedly provided with a second fixing plate 54, and the second fixing plate 54 is connected with the mounting plate 7 through screws.

The utility model discloses in, it is equipped with a plurality of buckles 55, a plurality of to control the shift board 41 trailing flank buckle 55 with a plurality of constant head tank 521 cooperation sets up.

The utility model discloses in, a plurality of constant head tank 521 of first circular rotor plate 52 side are concave type constant head tank 521, buckle 55 is the protruding type buckle of spring.

The utility model discloses in, first circular rotor plate 52 side every 90 just is equipped with a constant head tank 521, can drive the back and carry out 90 rotations and fixed, and the user need not rethread rotatory camera or station and shoots, can shoot the works of violently, perpendicular equidirectional at same position.

In the present invention, the lens connection assembly 8 includes a lens position-limiting piece 81 and a lens lock catch 82, the lens position-limiting piece 81 is disposed at the front end of the bottom of the through hole 6, and the lens lock catch 82 is disposed at the front end surface of the downward bending plate 2; the back coupling assembly 9 comprises a support plate 91 provided at the lower portion of the rear side of the mounting plate 7 and a hook plate 92 provided at the upper portion of the rear side of the mounting plate 7.

The utility model discloses in, the spacing piece 81 of camera lens is for controlling each, and spacing piece 81 of camera lens can be pegged graft with the camera lens.

The utility model discloses in, lens hasp 82 is for controlling each, and lens hasp 82 passes through the screw fixation on fuselage frame 1, and the user's accessible rotates the hasp handle of lens hasp 82 and opens or lock the camera lens.

The utility model discloses in, be equipped with camera lens location reference surface 12 at the leading flank of fuselage cradle 1, camera lens location reference surface 12 is located the terminal surface of through-hole 6, and on camera lens can the direct mount camera lens location reference surface 12, also can install on camera lens location reference surface 12 through auxiliaries such as camera lens keysets.

The utility model discloses a camera lens hookup subassembly 8 can realize dismantling fast and installing with the camera lens of various different functions.

In the utility model, the hook plate 92 is provided with two hook-shaped claws 921, and the hook-shaped claws 921 are matched with a connecting device of the digital back; the blade 91 serves the purpose of supporting the back of the camera.

The utility model discloses in, corresponding model can be changed according to the digital back of different producers to hook plate 92.

In the utility model discloses, the top of fuselage frame 1 is equipped with footstock 13, the leading flank of fuselage frame 1 is equipped with handle 14.

In the utility model discloses, handle 14 is the padauk handle.

The utility model discloses in, the top of footstock 13 is equipped with installation screw 131, is convenient for install annexs such as camera flash light on footstock 13.

In the utility model, the handle 14 is fixed on the fuselage frame 1, which is convenient for use.

The utility model discloses in, the bottom of fuselage cradle 1 still is equipped with mount pad 16, can fix on annexes such as tripod or cloud platform.

In the utility model, a plurality of horizontal beads 10 are arranged on the fuselage frame 1.

The utility model discloses in, the top of fuselage frame 1 is equipped with the horizontal pearl 10 of two perpendicular settings, and the user can be in when low shooting at the camera, and the user need not to bend over or lie prone and can learn whether the current state is horizontal, and the reducible error of works of shooing more facilitates the use.

The utility model discloses in, be equipped with the horizontal pearl 10 of two perpendicular settings on the mount pad 16, the user can be in the eminence when shooting at the camera, and the user need not to stand on tiptoe or stand and can learn whether current state is horizontal on the auxiliary object, and the reducible error of work of shooing is more facilitate the use.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The technical camera body capable of bidirectionally moving the shaft comprises a body frame and is characterized in that: a downward bending plate is arranged on the front side surface of the machine body frame, and the downward bending plate and the machine body frame are matched with each other to be provided with a lens connecting assembly; the rear side of the body frame is provided with an upper shaft moving component and a lower shaft moving component in a matched mode, the rear side of the upper shaft moving component and the rear side of the lower shaft moving component are provided with a left shaft moving component and a right shaft moving component in a matched mode, the rear sides of the left shaft moving component and the right shaft moving component are provided with rotating components in a matched mode, through holes are coaxially formed in the middle of the upper shaft moving component, the lower shaft moving component, the left shaft moving component, the right shaft moving component, the rotating components.

2. The technical camera body capable of bidirectional tilt and zoom according to claim 1, wherein: the bottom of the rear side of the downward bending plate is hinged to the machine body frame, a first knob is arranged at the top of the front end of the downward bending plate, a threaded hole is formed in the machine body frame, and the first knob is in threaded connection with the threaded hole.

3. The technical camera body capable of bidirectional tilt and zoom according to claim 1, wherein: the up-down shaft moving component comprises an up-down shaft moving plate arranged on the rear side face of the fuselage frame, a through hole is formed in the middle of the up-down shaft moving plate, first sliding plate components are arranged on the rear side face of the fuselage frame and the middle of the up-down shaft moving plate in a matching mode, any one of the first sliding plate components comprises a first movable sliding rail and a first static sliding rail which are matched with each other, the first movable sliding rail is arranged on the up-down shaft moving plate, and the first static sliding rail is fixed on the fuselage frame.

4. A technical camera body capable of bidirectional tilt and zoom according to claim 3, wherein: the novel multifunctional robot is characterized in that a second knob is arranged on the machine body frame, a screw rod pair is arranged at the axis of the second knob in a matched mode, one end of a screw rod of the screw rod pair is fixedly connected with the second knob, the other end of the screw rod is abutted to the machine body frame, a positioning piece is arranged on a nut sleeve of the screw rod pair and fixed on an upper shaft plate and a lower shaft plate, a first pointer is arranged on the positioning piece, and a first scale is correspondingly arranged on the machine body frame.

5. A technical camera body capable of bidirectional tilt and zoom according to claim 3, wherein: the left and right shaft moving component comprises a left and right shaft moving plate arranged on the rear side surface of the upper and lower shaft moving plate, a through hole is arranged in the middle of the left and right shaft moving plate, second sliding plate components are arranged on the rear side surface of the upper and lower shaft moving plate and the two sides of the middle of the left and right shaft moving plate in a matching way, any one second sliding plate component comprises a second movable sliding rail and a second static sliding rail which are matched with each other, the second movable sliding rail is arranged on the left and right shaft moving plate, and the second static sliding rail is fixed on the upper and lower shaft moving plate; and a second pointer is arranged on the side surface of the left and right shift plates, and a second graduated scale is correspondingly arranged on the body frame.

6. The technical camera body capable of bidirectional tilt and zoom according to claim 5, wherein: the sliding button is arranged on the body frame, a gear is connected to the bottom of the sliding button, and racks meshed with the gear are arranged on the left and right shaft moving plates.

7. The technical camera body capable of bidirectional tilt and zoom according to claim 5, wherein: the rotating component comprises a first fixing plate embedded in the middle of the rear end face of the left and right shift shaft plate, a through hole in the middle of the first fixing plate is a circular through hole, a first circular rotating plate is embedded in the front end face of the first fixing plate, a second circular rotating plate is embedded in the rear end face of the first fixing plate, and the first circular rotating plate and the second circular rotating plate are fixed through screws; the side of the first circular rotating plate is provided with a plurality of positioning grooves, the rear end face of the second circular rotating plate is fixedly provided with a second fixing plate, and the second fixing plate is connected with the mounting plate through screws.

8. The technical camera body capable of bidirectional tilt and zoom according to claim 7, wherein: the left and right shaft moving plate is provided with a plurality of buckles at the rear side face, and the plurality of buckles are matched with the plurality of positioning grooves.

9. The technical camera body capable of bidirectional tilt and zoom according to claim 1, wherein: the lens connecting assembly comprises a lens limiting piece and a lens lock catch, the lens limiting piece is arranged at the front end of the bottom of the through hole, and the lens lock catch is arranged on the front end face of the downward-bending plate; the back connecting component comprises a supporting plate arranged on the lower portion of the back side face of the mounting plate and a hook plate arranged on the upper portion of the back side face of the mounting plate.

10. The technical camera body capable of bidirectional tilt and zoom according to claim 1, wherein: a plurality of horizontal beads are arranged on the fuselage frame.

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