KR101651180B1 - Control selectively rotation degree apparatus for panorama imaging - Google Patents

Abstract

The present invention relates to a semiautomatic multi-rotation angle selecting device for panorama photography, capable of performing consecutive photography while rotating a camera at a divisional angle after the installation of the camera. More specifically, a rotation body, comprising a first angle panel, a second angle panel, and a fixing support unit and an angle control unit between the first and second angle panels, is assembled with a shaft part of a lower fixing panel, and this simple structure makes assembling production convenient. The angle control unit of the rotation body enables a single ball plunger to select an angle control hole, divided at different angles in different radial positions of the first and second angle panels, and thus, manipulation is convenient. Consecutive photography is performed by simply selecting, changing, and rotating multiple angle control holes, divided at different angles in different radial positions of the first and second angle panels, by rotating an angle selection dial depending on a lens of a camera. Therefore, the present invention is capable of providing excellent efficiency by performing the consecutive photography by selecting various divisional angles as well as using various lens (maximally, nine lens).

Description

[0001] The present invention relates to a semi-automatic multi-rotation angle selecting apparatus for panoramic photographing,

The present invention relates to a semi-automatic multi-rotation angle selecting apparatus for panoramic photographing in which a camera is mounted and rotated continuously at a dividing angle. More specifically, the present invention relates to a semi-automatic multi- The present invention relates to a semiautomatic multi-rotation angle selecting apparatus for panoramic photographing, which can take continuous photographing by simply selecting and changing a multi-division angle and continuously photographing by using various lenses (up to nine) as well as various division angles.

Generally, a panoramic photographing is a panoramic photographing operation in which a camera is horizontally rotated around a nodal point, or horizontally and vertically rotated, and then stitching (connecting) each photograph.

These panoramic images are used widely in the internet, the apartment model house, the interior of the hotel room or the museum, the photo realization, which is widely used for learning and advertising purposes, and the medical field and various industrial fields.

Such a conventional panoramic photographing can not be rotated at an accurate angle of division when the camera is rotated, so that the photographed images can not be uniformly superimposed and an accurate panoramic image can not be obtained.

In order to solve such a problem, the present applicant has disclosed a semi-automatic rotation angle selecting apparatus for panoramic photographing in Patent Registration No. 10-0944214, in which a first insertion hole formed in an upper rotary plate and a second insertion hole formed in a lower fixing plate, The first and second ball plungers are inserted so that the ball plunger is caught by the retaining grooves formed in the detent disc, so that the rotating plate is continuously photographed while being rotated stepwise at an accurate divided angle, It is installed in the fixing groove, and the lower fixing pin is installed in the fixing groove formed in the lower fixing plate, and the detent disc is rotated by being coupled with or separated from the upper rotation plate or the lower fixing plate, so that the user can select the division angle, Respectively.

However, the above-mentioned applicant's semi-automatic rotation angle selecting device for panoramic photographing of the prior application has a complicated structure in which the upper rotating plate, the lower rotating plate, and the detent disk are separately operated by the first and second ball plungers, There was a problem of poor sex.

Further, the upper and lower fixing plates may be divided into two different angles (10, 8) by selecting the upper fixing plate and the lower fixing plate, It is difficult to apply various lenses because of the limited selection of the insertion grooves. As a result, there is a limit in that an image can not be continuously obtained at various angle of division.

Patent Document 1: Registration No. 10-0944214

SUMMARY OF THE INVENTION The present invention has been made in order to solve all of the problems of the prior art, and it is an object of the present invention to provide a simple structure that facilitates assembly and production as well as operation.

Particularly, it is possible to continuously photograph the camera while rotating and rotating the multi-division angle according to the lens, so that various lenses (up to 9) can be used as well as various shooting angles can be selected for continuous shooting. .

According to the present invention, there is provided a portable terminal comprising: a lower fixed plate fixed to an upper portion of a tripod and having a shaft vertically formed at a center; A first angle plate that is axially assembled to prevent rotation of the shaft portion of the lower fixing plate and forms angular adjustment holes divided at different angles at different radial positions at the center; And an angle adjusting ball which is divided into different angles at different radial positions at different radial positions with respect to the angle adjusting ball of the first angle plate, A second angle plate for respectively forming the first angle plate and the second angle plate; Wherein a body is rotatably mounted on a shaft portion of a lower fixing plate between the first angle plate and the second angle plate, and one of the angle adjusting holes formed at different radial positions on the first and second angle plates is selected, A rotating body having an angle adjusting means for rotating and transferring the ball at a split angle of the ball, and a fixed supporting means for fixing and supporting the body to the shaft portion so as to prevent rotation at a split angle position of the angle adjusting hole; And a camera fixed quickshoe coupled to an upper portion of the rotating body and rotating together, the camera being coupled to an upper portion of the camera body.

The angle adjusting means includes a guide body linearly guided in a radial direction from the center of the inside of the rotary body, and a guide body coupled to the guide body to adjust the rotation of the guide body, And a ball plunger assembled with the guide body and stopping at an angle adjusting ball selected from angular adjustment balls at different radial positions of the first and second angular plates, It is characterized by its construction.

According to the present invention, the guide body is guided by an insertion groove and a shaft portion inside the rotary body, and is configured to linearly move in the radial direction from the center of the body.

The ball plunger is inserted into an assembly hole formed in a guide body and inserted into the angle adjusting hole of the first and second angle plates by inserting the upper and lower stop balls into the upper and lower stop springs on the tension spring at the center, It is characterized by its construction to work.

The fixed holding means comprises a fixed body having a pressing surface in the form of a curved surface surrounding the shaft portion of the lower fixed plate, and an operation handle screwed to the fixed body and pressed or fixed to the fixed body by the spiral rotation There is a feature in the box.

In the present invention, a camera is successively photographed while being selectively rotated at multiple division angles, and a plurality of angle adjusting balls divided at different radial positions of the upper fixing plate and the lower fixing plate by one selection handle and one ball plunger And has a simple structure in which continuous shooting is performed at various division angles by selecting it.

In particular, it is possible to continuously photograph multiple rotating angles of the camera by rotating the angle selection dial according to the lens, rotating and selecting multiple division angles, so that various lenses (up to nine) can be used, And the efficiency is excellent.

1 is an external perspective view showing an apparatus of the present invention.
Fig. 2 is an exploded perspective view of Fig. 1; Fig.
3 is a plan view of a partially cutaway state showing the angle adjusting means of the inventive device.
4 is a plan view of a partially cutaway state showing the fixed support means of the inventive device.
Fig. 5 is a front elevation view of a partially cutaway state showing the angle adjusting means of the inventive device. Fig.
FIG. 6 is an outline view of FIG. 5; FIG.
7 is a plan view showing the use state of the inventive device.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The semiautomatic multi-rotation angle selecting apparatus for panoramic photographing according to the present invention is constructed so that multiple division angles can be selectively changed and rotated according to a camera lens, and continuous photographing can be performed while rotating at various division angles.

1 to 7, the present invention includes a lower fixing plate 10, first and second angle plates 20 and 30 axially assembled to the lower fixing plate 10, a rotary body 50, And a camera fixing quick shoe 40 coupled to the upper portion of the rotating body.

The lower fixing plate 10 is fixed to an upper portion of a tripod, and has a shaft 12 vertically formed at the center thereof, and a horizontal system 13 capable of ascertaining the horizontal at one side thereof.

At this time, the lower fixing plate 10 can be fixed to the top of the tripod by various methods such as a bolt assembly method and a dovetail assembly method.

The first angular plate 20 is inserted into a lower rectangular surface portion 12a formed in the shaft portion 12 of the lower fixed plate 10 by a central square hole 21 to be axially assembled so as to prevent rotation, And an angle adjusting hole 25 divided at different radial positions at different angles.

For example, the angle regulating hole 25 is formed at a position divided by 60 degrees on a circumference of a radius of 30 mm from the center of the first angle plate 20, and the angle adjusting hole 25 is formed on a circumference of a radius of 40 mm And the angle adjusting holes 25 are formed at different radial positions in the form of forming the angle adjusting holes 25 at a position divided by 24 degrees on a circle having a radius of 50 mm, Respectively.

The second angular plate 30 is inserted into the upper rectangular surface portion 12b formed on the shaft portion 12 of the lower fixed plate 10 by the central square hole 31 to be axially assembled to prevent rotation, And the angle adjusting holes 35 are divided into different angles at different radial positions at different radial positions of the first angle plate and at different radial positions with respect to the angle adjusting hole 25 of the first angle plate.

For example, the angle regulating hole 35 is formed at a position divided by 45 degrees on a circumference of a radius of 35 mm from the center of the second angle plate 30, and the angle regulating hole 35 is formed at a position divided by 30 degrees on a circle having a radius of 45 mm And the angle adjusting holes 35 are formed at different angular positions at different radial positions in the form of an angle adjusting hole 35 at a position divided by 20 degrees on a circle having a radius of 55 mm Respectively.

That is, a plurality of the angle plates 20 and 30 are applied to form angular adjustment holes 25 and 35, which are divided at different angles at different radial positions from the center, The angle adjusting holes 25 and 35 of the plate 20 and the angle plate 30 of the second angle plate 30 are located at different radial positions so that the angle adjusting holes 25 and 35 are alternately positioned upward and downward.

The rotating body 50 rotatably supports the body 51 on the shaft portion 12 of the lower fixing plate between the first angle plate 20 and the second angle plate 30, An angle adjusting means 60 for selecting one of the angle adjusting holes formed at different radial positions in the angle adjusting holes 20 and 30 and rotating and transferring the selected angle adjusting hole at a split angle of the angle adjusting hole, (70) fixedly supported on the shaft (12) so as to prevent rotation at a split angular position of the shaft (12).

The angle adjusting means 60 includes a guide body 61 linearly guided in a radial direction from the center of the inside of the rotating body and a guide body 61 coupled to the guide body 61 in a spiral- A rotation angle selection handle 63 for selecting one of angle adjustment holes 25 and 35 formed at different radial positions on the two angle plates 20 and 30 and a rotation angle selection handle And a ball plunger 65 that stops in an angle adjusting hole selected among angle adjusting holes 25 and 35 at different radial positions of the two angle plates 20 and 30.

The guide body 61 is guided by the insertion groove 51a and the shaft portion 12 inside the rotary body from inside and outside, and is configured to linearly move in the radial direction from the center of the body.

The ball plunger 65 is inserted into an assembly hole 61b formed in the guide body 61 and inserted into the upper and lower stop balls 67 and 67 ' And selectively inserted into the angle adjusting holes 25 and 35 of the first and second angle plates 20 and 30 to stop the operation.

The fixed holding means 70 includes a fixed body 71 having a pressing surface 72 in the form of a curved surface surrounding the shaft portion 12 of the lower fixed plate and a fixed body 71 screwed to the fixed body 71, And an operation handle 75 for pressing or unlocking the shaft 12 by pressing.

The fixed body 71 of the fixed support means 70 is inserted into the guide groove 61a formed inside the guide body 61 of the angle adjusting means 60 and guided in a straight line.

The camera fixing quick shoe 40 is configured to be coupled to the rotating body 50 so as to rotate together and to fasten the quick shoe plate attached to the camera.

In the present invention, the rotation angle selection handle 63 may be formed by spirally coupling the spiral portion 63a to the guide body 61. However, as shown in the drawing, the guide body 63a, into which the spiral portion 63a is inserted, A guide ball 64 is protruded in the inside of the assembling hole and the guide body 61 is linearly moved by the rotation of the rotation angle selection handle 63.

Reference numeral 45 denotes a fixing bolt for fixing the camera; 63b, on the circumference of the rotation angle selection handle 63, the number of the angle adjustment balls equally divided into upper and lower fixing plates, And controls the rotation while confirming the number of rotations.

Hereinafter, the operation and operation of the present invention will be described.

The apparatus of the present invention includes a first angular plate 20, a rotating body 50 and a second angular plate 30 which are axially coupled to a shaft portion 12 of a lower fixed plate 10, 20 are inserted into the prismatic holes 21, 31 from the upper and lower prismatic tooth portions 12a, 12b of the shaft portion to be prevented from rotating, and the rotary body 50 is rotatably assembled.

In the inside of the rotating body 50, one of the angle adjusting holes formed at different radial positions in the first and second angle plates 20 and 30 is selected and an angle And a fixing support means 70 for fixing and supporting the first and second angular plates so as to prevent rotation at an angle adjusting hole position are assembled and assembled.

The present invention, which is assembled in such a manner, allows the user to select a division angle to be shot in a divided manner after the camera is fixedly mounted on the camera fixing quick shoe 40.

First, the user confirms the division number of the angle adjusting ball displayed on the display portion 63b of the rotation angle selection handle 63 of the angle adjusting means 60 and selects the division angle according to the lens.

The guide body 61 spirally coupled to the spiral portion 63a of the rotation angle selection handle is rotated by a predetermined number of divisions on the display portion 63b of the rotation angle selection handle 63, And guided by the insertion groove 51a and the shaft portion 12 to linearly move in the radial direction from the center of the inside of the rotating body.

The guide body 61 is provided with a ball plunger 65. The ball plunger 65 is attached to the assembly body 61b of the guide body by a tension spring 66 at the center, The angle adjusting balls 67 and 67 'of the first and second angle plates selected by the rotation angle selecting handle 63 are moved linearly in the radial direction from the center of the first and second angle plates 20 and 30 25) (35).

The first and second angle plates 20 and 30 are formed with angle adjusting holes 25 and 35 that are divided at different angles at different radial positions from the center. And the angle adjustment holes 25 and 35 of the second angle plate 30 are located alternately up and down, any one of the stop balls 67 and 67 'of the ball plunger, The first and second angular plates 20 and 30 are elastically inserted into the angle adjusting holes of the split angle selected by the user.

For example, when the user desires to divide the angle of 6, the stop ball of the ball plunger is inserted into the angle adjusting hole 25 located at a radius of 30 mm of the first angle plate 20, The stop ball of the ball plunger is inserted into the angle adjusting hole 35 located at a radius of 55 mm of the second angle plate 30.

In this manner, the rotary body 50 is continuously photographed while rotating the rotary body 50 at the angle of the angle adjusting hole selected in the angle adjusting holes 25 and 35 of the first and second angle plates 20 and 30.

That is, when the angle adjusting hole 25 positioned at a radius of 30 mm of the first angle plate 20 is selected, the rotary body 60 is rotated at an angle of 60 °, and the angle of the ball plunger 25, And when the angle adjusting hole 35 positioned at a radius of 55 mm of the second angle plate 30 is selected, the rotating body 60 is rotated at an angle of 30 degrees And the stop ball 67 'of the ball plunger is inserted into the angle adjusting hole 35 at the corresponding position while rotating the stopper 35, thereby photographing the stop ball 67'.

Particularly, the camera is rotated to the position of the angle adjusting hole 25 at the split angle as described above, and after stopping, the photographing is performed while being fixed by the fixed support means 70 so as to prevent rotation.

This is because the fixed body 71 spirally coupled to the operation handle is pressed and fixed to the shaft portion 12 of the lower fixed plate by rotating the manipulation handle 75 so that the curved surface pressing surface 72 of the fixed body The rotary body 60 is fixed so as to be prevented from rotating while the rotary member 12 is pressed and fixed.

Therefore, in the present invention, a plurality of angular adjustment balls, which are divided at different angles, are selected at different radial positions of the upper fixing plate and the lower fixing plate by one selection handle and one ball plunger while continuously photographing while rotating the camera at a division angle So that continuous shooting is performed at various division angles.

In particular, it is possible to continuously photograph multiple rotation angles by rotating the angle selection dial according to the lens of the camera, rotating and rotating the multiple division angles, and using various lenses (up to 9).

10: lower fixing plate 12:
20: first angle plate 30: second angle plate
25,35: Angle adjustment ball 40: Camera fixing quick shoe
50: rotating body 51a: insertion groove
60: Angle adjustment hole 61: Guide body
63: turning radius selection handle 65: ball plunger
61b: an assembler 66: a spring
67,67 ': stop ball 70: fixed support means
71: Fixture 72: Pressure face
75: Operation handle

Claims (5)

A lower fixing plate 10 fixed to the top of the tripod and vertically forming a shaft 12 at the center;
A first angle plate (20) axially assembled to prevent rotation of the shaft portion (12) of the lower fixing plate and each forming an angle adjusting hole (25) divided at different angles at different radial positions from the center;
(12) of the lower fixing plate and are divided into different angles at different radial positions at the center, wherein the angle adjusting holes (25) of the first angular plate A second angle plate 30 forming an angle adjusting hole 35,
The body is rotatably shaft-assembled to the shaft portion 12 of the lower fixing plate between the first angle plate 20 and the second angle plate 30 so that the first and second angle plates 20, An angle adjusting means 60 for selecting one of the angle adjusting holes formed at a radial position and for rotating the angle adjusting hole at a split angle of the angle adjusting hole, A rotary body (50) having fixed support means (70) for fixedly supporting the rotary body (50);
And a camera fixed quickshoe (40) coupled to an upper portion of the rotating body (50) to rotate together and to be coupled with a camera at an upper portion thereof. The method according to claim 1,
The angle adjusting means 60 includes a guide body 61 linearly guided in a radial direction from the center of the inside of the rotating body and a guide body 61 coupled to the guide body 61 in a spiral- A rotation angle selection handle 63 for selecting one of angle adjustment holes 25 and 35 formed at different radial positions on the two angle plates 20 and 30 and a rotation angle selection handle , And a ball plunger (65) for stopping operation in an angle adjusting hole selected among angle adjusting holes (25) (35) at different radial positions of the two angle plates (20) (30) Angle selector. 3. The method of claim 2,
Wherein the guide body (61) is guided by an insertion groove (51a) and a shaft portion (12) inside and inside the rotating body so as to move linearly in the radial direction from the center of the inside of the rotating body. Rotation angle selection device. 3. The method of claim 2,
The ball plunger 65 is inserted into an assembly hole 61b formed in the guide body 61 and inserted into the upper and lower stop balls 67 and 67 ' Is selectively inserted into the angle adjusting holes (25) (35) of the first and second angle plates (20) (30) to stop the operation of the semi-automatic multi-rotation angle selecting device for panoramic photographing. 3. The method according to claim 1 or 2,
The fixed supporting means 70 includes a fixing body 71 having a pressing surface 72 in the form of a curved surface surrounding the shaft portion 12 of the lower fixing plate and a fixed body 71 screwed to the fixing body 71, And an operation handle (75) for pressing or unlocking the shaft (12).

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