CN215335280U - Floor type photographic equipment - Google Patents

Abstract

The application belongs to the technical field of medical beauty shooting, and particularly relates to a floor type photographic device. In the floor type photographic equipment, a driving mechanism for driving the turntable can drive the rotary platform to rotate for a preset angle relative to the base, and the two ends of the rotary platform are respectively provided with the shooting assembly and the background piece. The user is in the supporting platform and keeps a static state, the rotating platform rotates for a preset angle to enable the shooting assembly and the background piece to synchronously rotate, the shooting assembly shoots the user and the background piece, the user is shot at different angles, and the shooting distance is ensured to be the same each time. The consistency of the photographing angle and the photographing distance is met in the photographing process of different batches before and after operation and after-treatment, so that the photos of each batch have better contrast. Adopt the console mode photography equipment of this application, do benefit to the user at supporting platform and keep the gesture that the comparison is the same, user's travelling comfort is better, and the effect of shooing is better.

Description

Floor type photographic equipment

Technical Field

The application belongs to the technical field of medical beauty shooting, and particularly relates to a floor type photographic device.

Background

In the medical cosmetology industry, a picture is taken of a plastic part of a patient before, after and after plastic surgery, and the picture is used for preoperative analysis, preoperative and postoperative comparison and the like. During photographing of the same batch before, after or after operation, different photographing angles are adopted to photograph the patient. In the shooting of different batches before and after operation and after-treatment, the manual shooting mode is adopted, so that the consistency of the shooting angles and distances of different batches is difficult to meet, and the contrast of the pictures of each batch is poor.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a floor type photographing device, so that the technical problem that the consistency of photographing angles and distances of different batches is difficult to meet in the existing manual photographing mode is solved.

The embodiment of the application provides a console mode photography equipment, includes: the device comprises a driving turntable, a shooting assembly, a background piece and a controller;

the driving turntable comprises a base, a rotating platform, a driving mechanism and a supporting platform, wherein the rotating platform is rotatably arranged on the base, the supporting platform is fixed on the base, and the rotating platform is positioned between the base and the supporting platform; the driving mechanism is electrically connected with the controller so as to drive the rotating platform to rotate relative to the base by a preset angle;

the shooting assembly and the background piece are respectively arranged at two ends of the rotating platform and can synchronously rotate along with the rotating platform, the supporting platform is positioned between the shooting assembly and the background piece, and the shooting assembly is arranged towards the background piece;

the shooting assembly is electrically connected with the controller, so that the shooting assembly shoots when the rotating platform rotates by a preset angle.

Optionally, the rotating platform is annular, and the base, the rotating platform and the supporting platform together enclose an accommodating cavity; the base with be equipped with first bearing between the rotary platform, supporting platform with be equipped with the second bearing between the rotary platform.

Optionally, a cantilever and a cable are also included;

the cantilever is positioned in the accommodating cavity, and the fixed end of the cantilever is fixed on the rotating platform;

a part of the cable is positioned in the accommodating cavity, a first end of the cable penetrates through the base, and a second end of the cable penetrates through the rotating platform and is used for being connected with the shooting assembly; at least part of the cable positioned in the accommodating cavity is fixed on the cantilever.

Optionally, the cable comprises a power line and a data line; the first end of the power line is provided with a first power plug, and the second end of the power line is provided with a second power plug; the first end of the data line is provided with a first data plug, and the second end of the data line is provided with a second data plug;

one end of the rotating platform is provided with an installation arm, and the shooting assembly is arranged on the installation arm; the bottom of installation arm is equipped with first socket and second socket, first socket and second socket all with shoot subassembly electric connection, second power plug can insert and locate first socket, second data plug can insert and locate the second socket.

Optionally, the cable is fixed to a side of the cantilever facing the support platform, and a blocking piece is arranged on a side of the cantilever facing the base;

the base is provided with at least two limit switches, and the spacing between each limit switch and the rotating axis of the rotating platform is equal; when rotary platform rotated, the separation blade can pass through each in proper order limit switch to detect rotary platform's rotational position.

Optionally, two ends of the rotating platform are respectively provided with a mounting seat, and each mounting seat is connected with a mounting arm;

the mounting seat is provided with an inclined slot which is arranged back to the supporting platform, and a preset included angle is formed between the extending direction of the inclined slot and the rotating axis of the rotating platform;

the mounting arm comprises an inclined arm and a vertical arm connected to one end of the inclined arm, and the tail end of the inclined arm can be inserted into the inclined insertion groove; when the tail end of the inclined arm is inserted into the inclined slot, the extending direction of the vertical arm is parallel to the rotation axis of the rotating platform;

the shooting assembly is arranged on one vertical arm of the installation arm, and the background piece is arranged on the other vertical arm of the installation arm.

Optionally, a lifting mechanism is arranged corresponding to the mounting arm of the shooting assembly, and the shooting assembly is mounted at the output end of the lifting mechanism; the output end of the lifting mechanism is provided with a luminous piece which is arranged towards the background piece;

and/or a fixing frame is arranged on the mounting arm corresponding to the background piece in a manner that the position can be adjusted up and down, and the background piece is arranged on the fixing frame.

Optionally, a limit buckle is arranged on the base, and a limit hook is arranged on the rotary platform; when the rotary platform rotates to enable the limiting hook to abut against the limiting buckle, the rotary platform is limited on the base along the circumferential direction.

Optionally, the support platform has a dial, the rotary platform is provided with a pointer, the pointer cooperates with the dial to display a corner of the rotary platform.

Optionally, the seat further comprises a seat, wherein the seat comprises a support plate, a bracket fixed to the support plate, and a cushion and a waist support arranged on the bracket; the support plate can be supported on the support platform;

a positioning piece is arranged on one side of the supporting platform, back to the base, and the supporting plate is provided with a positioning groove in clamping fit with the positioning piece; when the shooting component is located at an initial position and the positioning piece is clamped in the positioning groove, the waist support piece and the shooting component are arranged in a facing mode, and the cushion is located between the waist support piece and the shooting component.

One or more technical solutions provided in the embodiments of the present application have at least one of the following technical effects: in the floor type photographic equipment, a driving mechanism for driving the turntable can drive the rotary platform to rotate for a preset angle relative to the base, and the two ends of the rotary platform are respectively provided with the shooting assembly and the background piece. The user is in the supporting platform and keeps a static state, the rotating platform rotates for a preset angle to enable the shooting assembly and the background piece to synchronously rotate, the shooting assembly shoots the user and the background piece, the user is shot at different angles, and the shooting distance is ensured to be the same each time. The consistency of the photographing angle and the photographing distance is met in the photographing process of different batches before and after operation and after-treatment, so that the photos of each batch have better contrast. Compare current carousel drive user and rotate and with the mode that static camera was shot, adopt the console mode photography equipment of this application, the user keeps quiescent condition, drive through rotary platform and shoot the subassembly and rotate around the user and carry out the multi-angle and shoot, do benefit to the user at supporting platform and keep the same gesture, user's travelling comfort is better, the photographic effect is better, overcome because current carousel drives the user and rotates and the user leans forward or adverse actions such as lean on backward and then influence the photographic effect.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a perspective assembly view of a floor type photographing apparatus provided in an embodiment of the present application;

FIG. 2 is another perspective assembly view of the floor mounted photographic device of FIG. 1;

fig. 3 is a schematic structural view of a driving turntable in the floor type photographing apparatus of fig. 1;

FIG. 4 is an exploded perspective view of the drive turret of FIG. 3;

FIG. 5 is a further exploded perspective view of the drive turret of FIG. 4;

FIG. 6 is a top view of the drive turret of FIG. 3;

FIG. 7 is a sectional view taken along line A-A of FIG. 6;

fig. 8 is an exploded perspective view of the floor standing photographing apparatus of fig. 1;

fig. 9 is a perspective view of a seat in a floor standing photographing apparatus according to another embodiment of the present application;

fig. 10 is a perspective assembly view of a floor standing photographing apparatus according to another embodiment of the present application.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the embodiments of the present application, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like refer to orientations and positional relationships illustrated in the drawings, which are used for convenience in describing the embodiments of the present application and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the embodiments of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present application, unless otherwise specifically stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the embodiments of the present application can be understood by those of ordinary skill in the art according to specific situations.

Referring to fig. 1 and fig. 2, an embodiment of the present application provides a floor type photographing apparatus, including: a driving turntable 10, a shooting component 20, a background component 30 and a controller (not shown). Referring to fig. 3 to 6, the driving turntable 10 includes a base 11, a rotating platform 12, a driving mechanism 13 and a supporting platform 14, the rotating platform 12 is rotatably mounted on the base 11, the supporting platform 14 is fixed on the base 11, and the rotating platform 12 is located between the base 11 and the supporting platform 14. The driving mechanism 13 is electrically connected to the controller to drive the rotating platform 12 to rotate a predetermined angle relative to the base 11. Referring to fig. 1 and 2, the photographing element 20 and the background element 30 are respectively installed at two ends of the rotating platform 12 and can rotate synchronously with the rotating platform 12, the supporting platform 14 is located between the photographing element 20 and the background element 30, and the photographing element 20 is disposed toward the background element 30. The photographing assembly 20 is electrically connected to the controller, so that the photographing assembly 20 photographs when the rotating platform 12 rotates by a predetermined angle.

Compared with the related art, the floor type photographic equipment provided by the application has the advantages that the driving mechanism 13 for driving the turntable 10 can drive the rotary platform 12 to rotate relative to the base 11 by a preset angle, and the shooting assembly 20 and the background piece 30 are respectively installed at two ends of the rotary platform 12. The user is in the support platform 14 and keeps stationary, the camera assembly 20 takes pictures of the user and the background piece 30 by rotating the rotating platform 12 by a predetermined angle to make the camera assembly 20 and the background piece 30 rotate synchronously, and the user is taken pictures at different angles and each picture taking distance is ensured to be the same. The consistency of the photographing angle and the photographing distance is met in the photographing process of different batches before and after operation and after-treatment, so that the photos of each batch have better contrast. Compare the mode that current carousel drove the user to rotate and shoot with static camera, adopt the console mode photography equipment of this application, the user keeps quiescent condition, drive through rotary platform 12 and shoot subassembly 20 and rotate around the user and carry out the multi-angle and shoot, do benefit to and keep the same gesture at supporting platform 14's user, user's travelling comfort is better, the effect of shooing is better, overcome because current carousel drove the user and rotate and the user leans forward or lean back to wait unfavorable action and then influence the effect of shooing.

Illustratively, the camera assembly 20 may be a CCD camera for acquiring image information and converting the image information into an image signal. The controller may be a computer, and is configured to control the driving mechanism 13 to drive the rotating platform 12 to rotate by a predetermined angle, and is further configured to drive the camera assembly 20 to take a picture and record an image signal collected by the camera assembly 20. The computer can be provided with a display screen for displaying the image signals of the user in different photographing batches and at different angles so as to visually observe the plastic part. The controller controls the drive mechanism 13 to operate on predetermined instructions, as is conventional in the art.

Illustratively, a patient is required to reshape his face and take different angle photographs of the patient's face at different times before, after, or after surgery, including one each in the true (0 °), bilateral (± 90 °), and bi-oblique (± 45 °). The patient is in supporting platform 14, makes shooting subassembly 20 aim at plastic position (face), drives swivel platform 12 through actuating mechanism 13 and rotates predetermined angle to drive shooting subassembly 20 and background piece 30 and rotate the same angle, combines to shoot subassembly 20 and shoot patient and background piece 30 at different positions, realizes different angles and shoots. The photographing angle can be set as required, and is not limited herein. If other parts of the patient need to be shaped, accurate multi-angle photographing of the shaped parts can be achieved.

In another embodiment of the present application, referring to fig. 4 and 5, the rotating platform 12 has a ring gear 121, the driving mechanism 13 includes a control motor 131 mounted on the base 11, and a driving gear 132 driven by the control motor 131 to rotate, and the driving gear 132 is in meshing transmission with the ring gear 121 to rotate the rotating platform 12 relative to the base 11. The control motor 131 may be a stepping motor or a servo motor, and is capable of outputting a predetermined rotation angle to drive the rotary platform 12 to rotate by a predetermined angle.

In another embodiment of the present application, referring to fig. 4 and 5, an axis of an output shaft of the control motor 131 is perpendicular to a rotation axis of the rotating platform 12, and a bevel gear transmission 133 is disposed between the output shaft of the control motor 131 and the driving gear 132. The axial dimension of the control motor 131 is relatively large, the control motor 131 is transversely placed on the base 11, namely, the axis of the output shaft of the control motor 131 is perpendicular to the rotation axis of the rotary platform 12, and the bevel gear transmission mechanism 133 is combined to transmit the power of the control motor 131 to the driving gear 132, so that the distance between the base 11 and the rotary platform 12 can be effectively reduced, the structure is compact, and the occupied volume is small. The bevel gear transmission 133 includes two bevel gears engaged with each other, one of which is connected to an output shaft of the control motor 131, and the other of which is connected to the driving gear 132. A bevel gear drive 133 is provided on the gear holder.

In another embodiment of the present application, referring to fig. 4 and 5, the rotating platform 12 is in a ring shape, and the ring shape has an opening in the middle. The base 11, the rotary platform 12 and the supporting platform 14 together form an accommodating cavity; a first bearing 15 is arranged between the base 11 and the rotary platform 12, and a second bearing 16 is arranged between the support platform 14 and the rotary platform 12. The bearing is arranged between the two structural parts, so that the two structural parts can stably rotate relative to each other. Base 11 and supporting platform 14 all are roughly circular, and first bearing 15 is close to the marginal setting of base 11, and second bearing 16 is close to the marginal setting of supporting platform 14, and the steady rotation between base 11 and rotary platform 12 of being convenient for like this to and steady rotation between supporting platform 14 and rotary platform 12. The first bearing 15 and the second bearing 16 may be thrust ball bearings. The base 11 and the support platform 14 can be connected by a connecting piece 17. The connecting member 17 is a supporting frame, and two ends of the connecting member 17 are respectively fixed in the middle of the base 11 and the middle of the supporting platform 14, and can be fixedly connected by a fastener or other methods.

In another embodiment of the present application, please refer to fig. 4, which further includes a cantilever 18 and a cable 40. The cantilever 18 is located in the accommodating cavity, and the fixed end of the cantilever 18 is fixed on the rotating platform 12. A part of the cable 40 is located in the accommodating cavity, a first end 40a of the cable 40 is arranged outside the base 11 in a penetrating manner, and a second end 40b of the cable 40 is arranged outside the rotating platform 12 in a penetrating manner and is used for being connected with the shooting assembly; at least a portion of the cable 40 within the receiving cavity is secured to the boom 18. When the rotary platform 12 rotates, the part of the cable 40 penetrating out of the base 11 is relatively fixed, and the part of the cable 40 penetrating out of the rotary platform 12 rotates along with the rotary platform 12, so that the risk of people or articles tripping over the surrounding environment due to the fact that the cable is completely externally arranged is reduced. The part of the cable 40 in the accommodating cavity is fixed on the cantilever 18, so that the situation that the cable 40 is wound with parts in the accommodating cavity when the rotary platform 12 rotates is reduced, and the reliability is improved. When the cantilever 18 is mounted to the rotary platform 12, the fixed end of the cantilever 18 can be realized by means of bonding, fasteners and the like, so that the assembly is easy and the connection is reliable. When the cable 40 and the cantilever 18 are connected, the connection can be realized by adopting bonding, binding and the like, the assembly is easy, and the connection is reliable.

In another embodiment of the present application, referring to fig. 4 and 7, the rotary platform 12 includes a ring plate 122 and a ring wall 123 connected to one side of the ring plate 122. The annular plate 122 includes connected inner and outer annular portions 1221 and 1222, generally demarcated by a bearing location. The fixed end of the cantilever 18 is fixed to the inner ring 1221, and the cantilever 18 is held in the accommodating cavity to fix a portion of the cable 40 located in the accommodating cavity. The inner ring portion 1221 is provided with a first through hole 1223 at a fixed end adjacent to the cantilever 18, the annular wall 123 is provided with a second through hole 1231 at a position adjacent to the first through hole 1223, and the second end 40b of the cable 40 sequentially penetrates through the first through hole 1223 and the second through hole 1231. The portion of the cable 40 located in the accommodating cavity may be fixed to a side of the cantilever 18 facing the supporting platform 14, and the portion of the cable 40 near the fixed end of the cantilever 18 may pass through the inner ring 1221 of the annular plate 122 via the first through hole 1223 and then pass through the outer ring wall 123 via the second through hole 1231, so as to facilitate the assembly of the cable 40 on the rotating platform 12.

In another embodiment of the present application, referring to fig. 4 and 7, the cable 40 includes a power line 41 and a data line 42. The power line 41 and the data line 42 pass through the base 11 and out of the rotary platform 12. A first end of the power cord 41 has a first power plug 411, and a second end of the power cord 41 has a second power plug 412; a first end of the data line 42 has a first data plug 421 and a second end of the data line 42 has a second data plug 422. Referring to fig. 1 and 8, a mounting arm 50 is disposed at one end of the rotary platform 12, and the photographing assembly 20 is disposed on the mounting arm 50. The bottom of the mounting arm 50 is provided with a first socket 51 and a second socket 52, the first socket 51 and the second socket 52 are both electrically connected to the camera assembly 20, the second power plug 412 can be inserted into the first socket 51, and the second data plug 422 can be inserted into the second socket 52. The first power plug 411 of the power cord 41 may be connected to a power outlet, and the second power plug 412 may be connected to the second outlet 52 for power transmission, the second outlet 52 being electrically connected to the photographing assembly 20, so that power can be supplied to the photographing assembly 20. The first data plug 421 of the data line 42 may be connected to a controller jack and the second data plug 422 may be connected to the second jack 52 for signal transmission, the second jack 52 having been electrically connected to the camera assembly 20, so that signal transmission between the camera and the controller can be achieved. Thereby quickly connecting the photographing assembly 20 to an external power source or controller.

In addition, the power line 41 penetrating the base 11 may be connected to the driving mechanism 13 in a parallel manner to supply power to the driving mechanism 13. A data line is additionally arranged between the driving mechanism 13 and the controller, and the data line penetrates through the base 11 and then is connected with the driving mechanism 13 to realize the control of the driving mechanism 13.

In another embodiment of the present application, please refer to fig. 3 to 5, the cable 40 is fixed on a side of the cantilever 18 facing the supporting platform 14, and a stop 181 is disposed on a side of the cantilever 18 facing the base 11. At least two limit switches 19 are arranged on the base 11, and the distances between all the limit switches 19 and the rotating axis of the rotating platform 12 are equal; as the rotary platform 12 rotates, the catch 181 can pass by each limit switch 19 in turn to detect the rotational position of the rotary platform 12. The cantilever 18 has the function of supporting the cable 40 and the fixed flap 181. The cable 40 is supported on the upper surface of the cantilever 18, and the situation that part of the cable 40 in the accommodating cavity is wound with parts in the accommodating cavity when the rotary platform 12 rotates is reduced. The lower surface of the cantilever 18 is provided with a stop sheet 181 which is combined with a limit switch 19 on the base 11 to realize the detection of the rotating position of the rotating platform 12. Referring to fig. 7, the limit switch 19 includes an emitting end 191 and a receiving end 192 disposed at an interval, the receiving end 192 can receive light emitted from the emitting end 191 when there is no shielding between the emitting end 191 and the receiving end 192, the light received by the receiving end 192 is attenuated when the blocking piece 181 passes through the interval between the emitting end 191 and the receiving end 192, and the change of the intensity of the light between the emitting end 191 and the receiving end 192 is converted into the change of the current, so as to achieve the detection purpose. The base 11 may be provided with a support frame for mounting the limit switch 19, and the limit switch 19 may be disposed at a predetermined height to be engaged with the catch 181.

For example, referring to fig. 4, one of the limit switches 19 is used as a reset function, the driving mechanism 13 drives the rotating platform 12 to rotate, the blocking piece 181 rotates along with the rotating platform 12, when the limit switch 19 is triggered, the driving mechanism 13 is stopped, the rotating platform 12 can be restored to the initial position, and the rotating platform 12 in the initial position can rotate in both the clockwise direction and the counterclockwise direction. The other limit switch 19 is used as a limit function, the limit switch 19 is arranged close to the driving mechanism 13, the baffle 181 rotates along with the rotating platform 12, and when the limit switch 19 is triggered, the driving mechanism 13 is stopped, so that the rotating platform 12 is limited at a preset rotating angle position.

In another embodiment of the present application, referring to fig. 4, the cantilever 18 extends along the radial direction of the rotating platform 12, and the plane of the blocking plate 181 is perpendicular to the extending direction of the cantilever 18. During assembly, the blocking sheet 181 is arranged on the cantilever 18, and then the cantilever 18 is arranged on the rotary platform 12, so that the blocking sheet 181 and the limit switches 19 can be matched with each other conveniently, and the blocking sheet 181 can sequentially pass through each limit switch 19 when the rotary platform 12 rotates.

In another embodiment of the present application, referring to fig. 4, the cable 40 is fixed to the cantilever 18 along the extending direction of the cantilever 18. More cables 40 are secured to boom 18, further reducing the likelihood of cables 40 becoming entangled with other parts. The connecting member 17 is located in the middle of the base 11, and the free end of the cantilever 18 is spaced adjacent to the connecting member 17, which facilitates the fixing of more cables 40 on the cantilever 18.

In another embodiment of the present application, referring to fig. 3 and 4, the rotating platform 12 is provided with a slot 1224 near the installation location, and the second end 40b of the cable 40 can be engaged with the slot 1224. The limiting of the part of the cable 40 which penetrates out of the rotating platform 12 is realized, and the risk that the part of the externally arranged cable 40 collides with the surrounding environment is reduced.

In another embodiment of the present application, referring to fig. 5 and 7, the base 11 has a limiting channel 112 for the first end 40a of the cable 40 to pass through. Part of the cable 40 passes through the limiting channel 112 of the base 11, so that the part of the cable 40 is fixed relative to the base 11 when the rotating platform 12 rotates, and the risk of tripping people or articles caused by external arrangement of the cable is reduced.

In another embodiment of the present application, referring to fig. 1, two mounting seats 60 are respectively disposed at two ends of the rotating platform 12, and each mounting seat 60 is connected to a mounting arm 50. Referring to fig. 3 and 8, the mounting base 60 has an inclined insertion slot 61 disposed opposite to the rotary supporting platform 14, and an extending direction 61a of the inclined insertion slot 61 forms a predetermined angle with the rotation axis 12a of the rotary platform 12. The mounting arm 50 includes a tilting arm 53 and a vertical arm 54 connected to one end of the tilting arm 53, and the tip of the tilting arm 53 can be inserted into the tilting slot 61. When the tip of the inclined arm 53 is inserted into the inclined insertion groove 61, the extending direction of the vertical arm 54 and the rotation axis 12a of the rotating platform 12 are parallel to each other. The tilting arm 53 is fixed to the mounting base 60 by a fastener. The camera assembly 20 is mounted on the vertical arm 54 of one of the mounting arms 50 and the background member 30 is mounted on the vertical arm 54 of the other mounting arm 50. This facilitates positioning of the camera assembly 20 and the background member 30 at a predetermined height and radial distance from the rotatable platform 12, thereby orienting the camera assembly 20 toward the patient shaping site on the support platform 14 and positioning the patient between the camera assembly 20 and the background member 30. The radial dimension of the drive turret 10 can be made relatively small and takes up little space. When the installation seat 60 is fixed on the rotary platform 12 in the factory, the installation seat forms a part which is separated from the installation arm 50, and compared with the assembled whole machine, the separated parts occupy smaller volume and are convenient to transport. During assembly, the inclined arm 53 is aligned with the inclined slot 61 of the mounting base 60 and pushed in, and then the inclined arm 53 is fixed on the mounting base 60 through the fastener, so that the assembly operation is convenient.

When the inclined insertion groove 61 is provided, an angle between an extending direction 61a of the inclined insertion groove 61 and the rotation axis 12a of the rotary platform 12 may be an acute angle, for example, 35 ° to 65 °, which facilitates aligning the tip of the inclined arm 53 with the inclined insertion groove 61 of the mounting seat 60 and pushing the inclined arm 53 in.

In another embodiment of the present application, referring to fig. 4, the mounting base 60 includes a bottom plate 62, two side plates 63 disposed on the bottom plate 62 at intervals, a top plate 64 connected to the two side plates 63, and a limiting plate 65 connected between the two side plates 63, wherein the top plate 64, the two side plates 63, and the limiting plate 65 together form an inclined slot 61. The mount 60 is easy to manufacture. The mounting socket 60 may be formed by welding or otherwise connecting a plurality of plate members. Slots are formed in one side of the two side plates 63, two sides of the limiting plate 65 are respectively inserted into the slots of the two side plates 63, and the limiting plate 65 is fixed between the two side plates 63 through welding or other mechanical methods.

In another embodiment of the present application, referring to fig. 4, the position-limiting plate 65 has a guiding portion 651 near the opening of the inclined insertion slot 61, and the guiding portion 651 is used for guiding the end of the inclined arm 53 to be inserted into the inclined insertion slot 61. When assembling, it is necessary to insert the tip of the tilting arm 53 into the tilting slot 61 of the mounting base 60 in alignment, and the tilting arm 53 can be easily pushed into the tilting slot 61 by the guide portion 651. The guide portion 651 may be formed by bending outward a portion of the stopper plate 65 protruding out of the opening.

In another embodiment of the present application, referring to FIG. 4, the base plate 62 is secured to the rotatable platform 12 by fasteners. The mounting base 60 can be securely fixed to the rotary platform 12, and the reliability of the connection between the mounting arm 50 and the rotary platform 12 is improved. The provision of a plurality of fasteners improves the reliability of the connection between mounting arm 50 and mounting block 60. The mounting seat 60 has a limiting block 66, the rotary platform 12 has a limiting groove 1225 for the limiting block 66 to be inserted and matched, and the limiting block 66 is inserted into the limiting groove 1225 to limit the mounting seat 60 on the rotary platform 12. When the mounting base 60 and the rotary platform 12 are assembled, the limiting block 66 of the mounting base 60 is inserted into the limiting groove 1225 of the rotary platform 12, and then the mounting base 60 is fixed on the rotary platform 12 through a fastener, so that the assembly efficiency of the mounting base 60 and the rotary platform 12 can be improved. Every curb plate 63 sets up a stopper 66, and rotary platform 12 corresponds and is equipped with two spacing grooves 1225, and stopper 66 one-to-one locates spacing groove 1225, can promote the location effect like this. With reference to fig. 1 and 3, a reinforcing rib 126 is disposed on a side of the rotating platform 12 facing away from the mounting seat 60. The mounting arm 50 has a certain weight, and the strength of the rotary platform 12 can be improved by providing the reinforcing rib 126 on the rotary platform 12, thereby improving the reliability of the rotary platform 12 after the mounting arm 50 is assembled with the mounting seat 60.

In another embodiment of the present application, referring to fig. 3 to 5, a lifting mechanism (not shown) is disposed corresponding to the mounting arm 50 of the photographing assembly 20, and the photographing assembly 20 is mounted at an output end of the lifting mechanism. The upper and lower position of adjustable subassembly 20 of shooing like this can adapt to the patient of different heights to make subassembly 20 of shooing just can promote the effect of shooing to being located the patient plastic position of supporting platform 14 department. The output end of the elevating mechanism is provided with a light emitting member (not shown) disposed toward the background member 30. The light emitting member may be a fill-in light. The luminous piece can be to the patient light filling that is located supporting platform 14, when being favorable to shooing at the different angles of shooing, provides the same light filling amount to patient's plastic position. The lifting mechanism can adopt a mode of controlling the motor and the gear rack transmission mechanism or a mode of controlling the motor and the lead screw nut transmission mechanism, and the modes can realize the control of the up-and-down movement of the output end.

Illustratively, the lifting mechanism comprises a control motor, a gear, a rack and a movable frame, wherein the movable frame is used as an output end of the lifting mechanism. An output shaft of the control motor is used for fixing a gear, a rack is assembled on the mounting arm 50 in a sliding mode along the length direction of the mounting arm 50, the gear and the rack are in meshed transmission, the movable frame is fixed on the rack and can be located outside the mounting arm 50, and the shooting assembly 20 and the light-emitting piece can be mounted on the movable frame. Spacing can be realized through the mode of guide rail slider between rack and the installation arm 50, makes the rack can not break away from installation arm 50 in the slip process. The control motor 131 drives the rack-and-pinion transmission mechanism to realize the up-and-down movement of the output end, and further realize the up-and-down movement of the shooting assembly 20 and the light emitting member.

In another embodiment of the present application, referring to fig. 2, the background element 30 has a concave arc surface 31 facing the axis of the rotating platform 12. When the background piece 30 rotates along with the rotating platform 12, when the photographing assembly 20 photographs the patient and the background piece 30, the consistency of the image formed by the background piece 30 is better when the patient and the background piece 30 are photographed at different angles for a plurality of times, and the condition of uneven brightness when the patient and the background piece are photographed at different angles is reduced. The background member 30 may be an arcuate plate member that is easily formed.

In another embodiment of the present application, please refer to fig. 1 and 8, a fixing frame 32 is installed on the mounting arm 50 corresponding to the background element 30, and the background element 30 is disposed on the fixing frame 32. This facilitates adjustment of the up and down position of the background member 30 to accommodate the contoured portion of the patient at the support platform 14. The background member 30 may be secured to the mounting bracket 32 by hook and loop fasteners, or other means. Illustratively, the mounting arm 50 corresponding to the background member 30 has a guide groove extending along the length of the mounting arm 50, and the holder 32 includes a catch slidably fitted in the guide groove, so that the holder 32 does not come off the mounting arm 50 when the catch is fitted in the guide groove. The fixing bracket 32 includes a mounting wall having a screw hole to be fitted with the locking screw. The locking screw can be provided with a handle, so that manual screwing is facilitated. After the upper and lower positions of the fixing frame 32 are adjusted, the locking screw is screwed into the screw hole, and one end of the locking screw abuts against the side surface of the mounting arm 50 by screwing, so that the fixing frame 32 is fixed on the mounting arm 50. The mounting bracket 32 can be loosened on the mounting arm 50 by reverse-screwing the locking screw.

In another embodiment of the present application, please refer to fig. 5, a limit buckle 111 is disposed on the base 11, and a limit hook 124 is disposed on the rotating platform 12; when the rotating platform 12 rotates to make the limiting hook 124 abut against the limiting buckle 111, the rotating platform 12 is limited on the base 11 along the circumferential direction. The limit hook 124 and the limit buckle 111 cooperate to realize mechanical limit of the rotating platform 12, so that the rotating platform 12 can only rotate within a range less than or equal to 360 degrees. Illustratively, the position-limiting buckle 111 includes a position-limiting pillar disposed at the edge of the base 11 and higher than the plane of the base 11, and the position-limiting hook 124 is substantially T-shaped. When the rotary platform 12 is assembled on the base 11, the limit hook 124 is approximately at the same height position as the limit buckle 111, and after the corner position of the rotary platform 12 is adjusted, the limit hook 124 can be hooked on the limit buckle 111, so that the rotary platform 12 cannot rotate continuously.

In another embodiment of the present application, please refer to fig. 5, one end of the limit hook 124 is pivoted to the rotating platform 12, and the pivoting axis of the limit hook 124 is perpendicular to the rotating axis of the rotating platform 12. The limit hook 124 is configured to be swing-mounted to the rotary platform 12. After the position of the rotating platform 12 is adjusted to make the limit hook 124 abut against the limit buckle 111, the limit hook 124 will swing relative to the axis thereof until the limit hook 124 hooks the limit buckle 111. When the rotary platform 12 moves reversely, the limit hook 124 will separate from the limit buckle 111 under the action of gravity and then reset to the drooping state. This enables the rotary platform 12 to rotate through a greater angle, which enables the rotary platform 12 to rotate within a 360 ° range. The limit hook 124 may be pivotally connected to the outer circumference of the rotating platform 12 by a pin.

In another embodiment of the present application, referring to fig. 3, the supporting platform 14 has a dial (not shown), the rotating platform 12 is provided with a pointer 125, and the pointer 125 cooperates with the dial to display the rotation angle of the rotating platform 12. The dial of the support platform 14 is at rest and the pointer 125 follows the rotation of the rotary platform 12, which facilitates the acquisition of the rotation angle of the rotary platform 12.

In another embodiment of the present application, please refer to fig. 9 and 10, which further include a seat 70, so that the patient can sit on the seat 70 and keep in a relatively stationary position, and the rotating platform 12 drives the photographing assembly 20 and the background element 30 to rotate, thereby improving the user experience. The seat 70 includes a support plate 71, a bracket 72 fixed to the support plate 71, and a seat cushion 73 and a lumbar support 74 provided to the bracket 72. The support plate 71 can be supported on the support platform 14. The lumbar support 74 is used to support the waist of the patient in a seated position and serves to position the patient. Referring to fig. 3, a positioning member 141 is disposed on a side of the supporting platform 14 opposite to the base 11, and the supporting plate 71 has a positioning groove 711 engaged with the positioning member 141. When the photographing assembly 20 is at the initial position and the positioning member 141 is snapped in the positioning groove 711, the waist support 74 and the photographing assembly 20 are disposed opposite to each other, and the seat cushion 73 is disposed between the waist support 74 and the photographing assembly 20. Wherein the initial position of the photographing assembly 20 is the position of the photographing assembly 20 when the rotating platform 12 is in the initial position. The shooting component 20 is in an initial position, the shooting component 20 is opposite to a user positioned on the supporting platform 14, and the driving mechanism 13 drives the rotating platform 12 to rotate by a preset angle according to the initial position.

The user may sit or stand and remain stationary while at the support platform 14. When a user is to sit, referring to fig. 10, the supporting plate 71 of the seat 70 is abutted against the supporting platform 14, and the positioning member 141 of the supporting platform 14 is clamped in the positioning groove 711 of the supporting plate 71, so that the lumbar support 74 faces the shooting component 20, and the seat cushion 73 is positioned between the lumbar support 74 and the shooting component 20, thereby realizing the rapid positioning and assembling of the seat 70. With the camera assembly 20 in the initial position, the user sits on the seat cushion 73 and leans back on the lumbar support 74 and the camera assembly 20 is facing the front of the user. When a user is to stand, referring to fig. 1, the user can stand directly on the support platform 14 without the need for a seat on the support platform 14. The photographing assembly 20 is in the initial position, and the user wants to be directed to the photographing assembly 20 by himself. The seat 70 can be quickly positioned, assembled or disassembled on the supporting platform 14, and the requirement of a user for sitting or standing is met.

In another embodiment of the present application, referring to fig. 3 and 9, the positioning element 141 includes at least two positioning posts disposed on the supporting platform 14, the number of the positioning slots 711 is equal to the number of the positioning posts, and the positioning posts can be correspondingly clamped in the positioning slots 711. With reference to fig. 10, when the seat 70 needs to be assembled to the supporting platform 14, after the positioning groove 711 and the positioning column are aligned in the vertical direction, the supporting plate 71 is drawn toward the supporting platform 14, and the positioning column is clamped in the positioning groove 711, so that the seat 70 can be quickly positioned, the circumferential position of the supporting plate 71 on the supporting platform 14 is limited, and the seat 70 is limited. The seat 70 can be removed by lifting the seat 70 from the support platform 14 to disengage the detent 711 from the locating post. Illustratively, the positioning groove 711 and the positioning column are respectively provided in two numbers, so that the supporting plate 71 can be circumferentially limited on the rotating platform 12.

For example, referring to fig. 9, the positioning groove 711 is disposed on the outer circumferential surface of the supporting plate 71, and the positioning groove 711 is disposed through the supporting plate 71. The positioning groove 711 is easily formed in the outer peripheral surface of the support plate 71. When assembling, it is convenient to observe whether the positioning groove 711 and the positioning column are aligned, so as to align the positioning groove 711 and the positioning column in the vertical direction, and to quickly clamp the positioning column in the positioning groove 711.

In another embodiment of the present application, referring to fig. 9 and 10, the bracket 72 includes a first support rod 721 having a screw hole, a screw 722 screwed with the screw hole, and an adjusting rod 723 connected to the screw 722, and the seat cushion 73 is fixed to the screw 722. When the adjustment lever 723 is operated, the screw 722 can rotate relative to the first support rod 721 to adjust the up-down position of the seat cushion 73. The seat cushion 73 is configured to be adjustable up and down to accommodate patients of different heights sitting in the chair 70 so that the camera assembly 20 is aligned with the patient's anatomy and the patient is in a comfortable sitting position. The lower end of the screw 722 is screwed to the screw hole at the upper end of the first support rod 721, and the seat cushion 73 is fixed to the upper end of the screw 722. In addition, the lower part of the first support rod 721 can be provided with a pedal part, so that the comfort of the user is improved.

In another embodiment of the present application, referring to fig. 9 and 10, the bracket 72 includes a second supporting rod 724 fixed to the first supporting rod 721, a moving rod 725 movably installed to the second supporting rod 724 up and down, and a fastening member 726 for fixing the moving rod 725 to the second supporting rod 724 after adjusting the up and down position of the moving rod 725. The lumbar support 74 is provided to the second support bar 724. The head rest 75 is mounted on a movable rod 725. The head rest 75 is used to support the head of a patient in a sitting position and serves to position the patient. The second supporting rod 724 adopts a mode of adjusting the position up and down, and is suitable for the conditions of patients with different heights.

Illustratively, the second supporting rod 724 is tubular, one end of the movable rod 725 is slidably inserted into a nozzle of the second supporting rod 724, the second supporting rod 724 has a threaded hole matched with a fastening member 726, and the fastening member 726 may be a locking screw, which may be provided with a handle to facilitate manual screwing. After the upper and lower positions of the movable rod 725 are adjusted, the locking screw is screwed into the screw hole of the second support rod 724, and one end of the locking screw abuts against the surface of the movable rod 725 and the movable rod 725 abuts against a part of the inner wall of the second support rod 724 by screwing, so that the movable rod 725 is fixed on the second support rod 724. The movable rod 725 can be loosened from the second supporting rod 724 by reversely screwing the locking screw, so as to adjust the position of the second supporting rod 724.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A floor-standing photographing apparatus, comprising: the device comprises a driving turntable, a shooting assembly, a background piece and a controller;

the driving turntable comprises a base, a rotating platform, a driving mechanism and a supporting platform, wherein the rotating platform is rotatably arranged on the base, the supporting platform is fixed on the base, and the rotating platform is positioned between the base and the supporting platform; the driving mechanism is electrically connected with the controller so as to drive the rotating platform to rotate relative to the base by a preset angle;

the shooting assembly and the background piece are respectively arranged at two ends of the rotating platform and can synchronously rotate along with the rotating platform, the supporting platform is positioned between the shooting assembly and the background piece, and the shooting assembly is arranged towards the background piece;

the shooting assembly is electrically connected with the controller, so that the shooting assembly shoots when the rotating platform rotates by a preset angle.

2. The floor-standing camera device as claimed in claim 1, wherein the rotating platform is annular, and the base, the rotating platform and the supporting platform together define a receiving cavity; the base with be equipped with first bearing between the rotary platform, supporting platform with be equipped with the second bearing between the rotary platform.

3. A floor standing camera device as claimed in claim 2, further comprising a boom and a cable;

the cantilever is positioned in the accommodating cavity, and the fixed end of the cantilever is fixed on the rotating platform;

a part of the cable is positioned in the accommodating cavity, a first end of the cable penetrates through the base, and a second end of the cable penetrates through the rotating platform and is used for being connected with the shooting assembly; at least part of the cable positioned in the accommodating cavity is fixed on the cantilever.

4. The console mode photographing apparatus of claim 3, wherein the cable includes a power line and a data line; the first end of the power line is provided with a first power plug, and the second end of the power line is provided with a second power plug; the first end of the data line is provided with a first data plug, and the second end of the data line is provided with a second data plug;

one end of the rotating platform is provided with an installation arm, and the shooting assembly is arranged on the installation arm; the bottom of installation arm is equipped with first socket and second socket, first socket and second socket all with shoot subassembly electric connection, second power plug can insert and locate first socket, second data plug can insert and locate the second socket.

5. A floor standing camera device as claimed in claim 3, wherein the cable is secured to a side of the boom facing the support platform, the side of the boom facing the base being provided with a catch;

the base is provided with at least two limit switches, and the spacing between each limit switch and the rotating axis of the rotating platform is equal; when rotary platform rotated, the separation blade can pass through each in proper order limit switch to detect rotary platform's rotational position.

6. The floor-standing photographing apparatus as claimed in claim 1, wherein both ends of the rotation platform are respectively provided with a mounting seat, and a mounting arm is connected to each of the mounting seats;

the mounting seat is provided with an inclined slot which is arranged back to the supporting platform, and a preset included angle is formed between the extending direction of the inclined slot and the rotating axis of the rotating platform;

the mounting arm comprises an inclined arm and a vertical arm connected to one end of the inclined arm, and the tail end of the inclined arm can be inserted into the inclined insertion groove; when the tail end of the inclined arm is inserted into the inclined slot, the extending direction of the vertical arm is parallel to the rotation axis of the rotating platform;

the shooting assembly is arranged on one vertical arm of the installation arm, and the background piece is arranged on the other vertical arm of the installation arm.

7. The console camera apparatus of claim 6, wherein a lifting mechanism is provided corresponding to the mounting arm of the photographing assembly, the photographing assembly being mounted at an output end of the lifting mechanism; the output end of the lifting mechanism is provided with a luminous piece which is arranged towards the background piece;

and/or a fixing frame is arranged on the mounting arm corresponding to the background piece in a manner that the position can be adjusted up and down, and the background piece is arranged on the fixing frame.

8. The floor type photographing apparatus of any one of claims 1 to 7, wherein a limit buckle is provided on the base, and a limit hook is provided on the rotating platform; when the rotary platform rotates to enable the limiting hook to abut against the limiting buckle, the rotary platform is limited on the base along the circumferential direction.

9. A floor standing camera apparatus as claimed in any one of claims 1 to 7, wherein the support platform has a dial and the rotary platform is provided with a pointer which cooperates with the dial to indicate the rotation angle of the rotary platform.

10. A floor standing photographing apparatus as defined in any one of claims 1 to 7, further comprising a seat including a support plate, a bracket fixed to the support plate, and a seat cushion and a lumbar support provided to the bracket; the support plate can be supported on the support platform;

a positioning piece is arranged on one side of the supporting platform, back to the base, and the supporting plate is provided with a positioning groove in clamping fit with the positioning piece; when the shooting component is located at an initial position and the positioning piece is clamped in the positioning groove, the waist support piece and the shooting component are arranged in a facing mode, and the cushion is located between the waist support piece and the shooting component.

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