KR200462189Y1

KR200462189Y1 - visual presenter with dual camera

Info

Publication number: KR200462189Y1
Application number: KR2020120003001U
Authority: KR
Inventors: 임규홍
Original assignee: 주식회사 씨엔디솔루션스
Priority date: 2012-04-13
Filing date: 2012-04-13
Publication date: 2012-08-29

Abstract

The present invention relates to a real imager provided with a dual camera, the base portion disposed on one side where the real is photographed, is fixed to the upper portion of the base portion, is installed protruding in the upper direction of the base portion, A base joint part having a base shaft in both sides of the base part, respectively, is disposed above the base part, and is coupled to the base shaft by a lower stand part installed to be settled on the upper part of the base part when folded by rotation, and one side of the lower part. It is hinged to the stand part and has an insertion space into which the lower stand part is inserted at the time of folding by rotation, and has a length that becomes a height to be photographed in a state of being unfolded in one direction and unfolded with the lower stand part in the other direction. Auto-focusing length in the state A camera joint part disposed on the other side of the upper stand part, the camera stand having a camera joint axis rotatably connected to the other side of the upper stand part, and disposed on an upper part of the upper stand part, The proximity camera is rotatably connected to an axis, and the proximity camera is provided on one surface positioned at the lower side when the upper stand portion is unfolded, and the auto focusing camera is formed on the other surface corresponding to the one surface positioned at the lower side when the lower stand portion and the upper stand portion are unfolded. It includes a camera unit provided.

Description

Physical Presenter with Dual Cameras {visual presenter with dual camera}

The present invention relates to a real imager, and more particularly, two cameras having different focal lengths are installed on a stand that adjusts the distance to be photographed by being folded according to the focal lengths. By photographing while being displaced with a camera, the present invention provides a real imager equipped with a dual camera capable of improving shooting efficiency and obtaining stable and high quality results.

In general, a real imager is a product composed of optical system and electronic parts, and is connected to Projection TV and PC to enlarge various images (pictures, photos, books, objects, creatures and negatives / slides / transparencies, maps) into images. It is a device used for learning and teaching, and it is a multimedia core device that combines a part or main functions of OHP, scanner, slice ring register, brown rice projector, real ring register, and camcorder into one product.

In order to capture the above-mentioned material (hereinafter referred to as the subject), the real imager moves the camera photographed with the subject positioned at the photographing position to a focus position according to the size and shape of the subject, and then photographs the photographed image with the camera. It is installed to be output from various video display devices.

The real imager of the prior art is installed to shoot while adjusting the focal length between the subject and the camera according to the type and shape of the subject photographed by one camera. In other words, if the subject is a printed letter or a small size photograph, the subject should be photographed with the focal length adjusted at a close distance. To photograph a large picture, an object, or a creature, the subject must be adjusted with the focal length far from the subject. To be photographed.

As described above, the real imager of the related art uses a single camera for close-up shooting and long-distance shooting so that the close-up focal length and the far-focusing focal length are limited according to the focal length of one camera, thereby reducing the focus of the subject. There is a problem in that the cost is increased by using an expensive camera having a wide distance or by using another real imager according to the type and shape of each subject.

In addition, the real imager of the prior art is provided with a stand so that the camera for photographing the subject is installed at a position away from the focal length, there is a problem that the stand is protruding and difficult to store and carry.

In addition, the actual imager of the prior art has to adjust the length according to the fixed operation to maintain the position and angle in the state of manually adjusting the length and angle in order to adjust the length or angle according to the focal length of the stand fixing the camera There was a problem that the operation difficult to adjust the angle.

The present invention is designed to improve the above problems, the problem to be solved by the present invention is installed so that the camera photographed at a close distance and the camera photographed at a long distance to fit the focal length according to the shape and size of the subject The use of each camera improves the convenience of use and provides a real imager equipped with dual cameras capable of obtaining high quality results.

Technical problem of the present invention is not limited to those mentioned above, another technical problem that is not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a real imager having a dual camera according to an embodiment of the present invention is fixed to the base portion, the upper portion of the base portion disposed on one side where the real is photographed, protruding in the upper direction of the base portion And a base joint part having a base shaft in both side directions of the base part at a position protruding upwards, and disposed on an upper part of the base part, and being hinged to the base axis to be folded by rotation so as to be placed on an upper part of the base part. The lower stand part is installed, one side is hinged to the lower stand part, and has a insertion space into which the lower stand part is inserted at the time of folding by the rotation, and becomes the length to be the height to be taken close-up in the state unfolded in one direction and the other side In the unfolded state with the lower stand in the direction An upper stand part installed to have a length to be the height of Cushing photographing, a camera joint part disposed on the other side of the upper stand part, and having a camera joint axis rotatably connected to the other side of the upper stand part, and an upper part of the upper stand part. Is disposed in, rotatably connected to the camera joint axis is provided with a proximity camera to one side located at the bottom when the upper stand portion is unfolded, one side positioned at the bottom when the lower stand portion and the upper stand portion unfolded together It characterized in that it comprises a camera unit having an auto focusing camera on the other surface corresponding to the.

In addition, the base portion is disposed on one side where the real is photographed, and has a receiving surface on the upper side where one side is contacted when folding the lower stand portion, the upper stand portion, and the camera portion, respectively hinged, A base body having an inclined surface inclined downward in the other direction so that the lower stand portion and the upper stand portion are hingedly coupled to each other, and protrude on one side of the base body, and the camera portion contacts the storage surface. On the other side protruding away from each other to have a camera seating space to be received, the other side facing each other so that a portion of the upper stand portion folded in the other direction is inserted, and a seating projection having a groove-shaped stand seating groove, and on one side of the base body An image taken by the camera unit while being arranged and supplying power Characterized in that it may include a terminal unit provided with a plurality of terminals is output.

And, it is disposed inside the base body, the base body may further include a magnetic body having a magnetic force so that a fixed force is generated by the magnetic force, the magnetic body is installed in the position where the base body magnetic force is applied If it is characterized in that the fixing force can be improved by the magnetic force.

In addition, the base joint portion, the base joint body protruding on the central portion of the one side of the base portion, protruding at the position where the lower stand portion is inserted and having a base joint hole penetrated in the lateral direction, inserted into the side of the base joint body A base shaft inserted into the base joint hole and protruding from both sides of the base joint body to be hinged to both sides of the lower stand part, and disposed on one side of the base joint body; A base spring inserted into the base shaft and provided at one side of the base spring so as to be hinged to the base shaft to provide elastic pressing force in one side direction in which the lower stand portions respectively positioned at both sides of the base joint body are inserted; The lower stan A base pressurizing body which is installed to press the lower stand part by the pressing force of the base spring on one side which is in contact with the part, and has a base pressing hole penetrated so that the base shaft is inserted into the center, and the other side of the base joint body Protruding in the lateral direction, it may include a stopper body is inserted into the lower stand portion which is hinged to the base shaft is rotated to be installed so that the rotation angle is limited, the lower stand portion is inserted into both sides of the base joint body The user can maintain the state rotated by the pressing force of the base spring even after the lower stand portion is rotated by maintaining the pressing state with the base pressing body by the pressing force of the base spring in a hinged state to the base shaft. It is done.

In addition, the lower stand portion is disposed on the base portion, the hinge is coupled to the base shaft is folded on the base is placed in the upper portion of the base portion, when deployed together with the upper stand portion when the camera portion is auto focusing height It is installed to be, and has a lower joint groove of the groove shape is inserted into the base joint portion at the bottom, the base shaft insertion is inserted so as to rotate around the base axis in both sides in the inner side facing each other inside the lower joint groove A lower stand body having a groove and having a stopper groove of a groove shape for restricting an angle at which the base joint part is inserted and rotated to opposite sides of the lower joint groove facing each other, and protrudes on an upper portion of the base part, both sides To form an insertion space into which the upper stand is inserted A groove which protrudes into the insertion space to both sides and is provided with a stand shaft which is hinged to the upper stand part, and which limits the angle of rotation of the upper stand part by being inserted into one side and hinged. Characterized in that it may include a stand joint body having a stand stopper groove of the form.

In addition, the upper stand portion is disposed on both sides of the lower stand portion, and provided in the form of a bar to form a stand insertion space into which the lower stand portion is inserted in a direction facing each other at a position hinged to the upper portion of the lower stand portion. A stand protrusion having an upper shaft insertion groove which protrudes and is inserted into the shaft is installed to be hinged to the lower stand part, and is inserted into the lower stand part by one side of both sides facing each other of the stand protrusion and rotated. It has a stopper projection of the projection shape to limit the, and the camera portion has a camera shaft insertion grooves on both sides in the direction facing each other on the upper side hinged, the camera portion to one side of the camera shaft insertion grooves formed on both sides inside Upper stand with grooved spring groove in the direction A sieve and an upper portion of the upper stand body, and the auto-focusing camera is photographed by unfolding the upper stand body and spreading the upper stand body and the lower stand unit together in a downward direction when photographing the proximity camera. Characterized in that the lamp may be installed so that the light is irradiated to the upper portion located in the lower portion.

The camera joint part is installed to connect the upper part of the upper stand part, and the camera joint axis is provided in a shaft shape that is the center of rotation of the camera part is rotatably inserted and inserted into one side of the camera joint axis. And a camera spring installed so that an urging force by elasticity is applied to one side of the camera part hinged to the camera joint axis, and disposed between the camera spring and the camera part, and the camera part being pressed by the camera spring. And a camera pressing body having a camera pressing hole installed at the center to insert the camera joint shaft in the center thereof, wherein the camera pressing body presses the camera unit by the pressing force of the camera spring, so that the camera unit presses the camera joint. Around the axis It characterized in that it can hold the angle of rotation after the rotation.

In addition, the camera unit, the camera body is disposed on the upper stand portion, the shaft hole is rotatably inserted into the camera joint axis is installed to be rotated in the upper position of the upper stand portion, the camera body, disposed on one surface of the camera body And a close-up camera installed at one side positioned at a lower side when the upper stand unit is unfolded and photographed at a short distance with a short focal length, and disposed on the other side of the camera body, together with the lower stand unit and the upper stand unit. It may include an auto focusing camera installed on the other surface corresponding to one surface positioned at the lower side when unfolding and photographing in an autofocused state having a longer focal length than the proximity camera, wherein the proximity camera is configured to fit the focal length. I can photograph it with the state spread out Autofocusing camera is characterized in that for taking expanding portion with said upper stand unit and the lower stand to match the focal length of which autofocusing.

Specific details of other embodiments are included in the detailed description and the drawings.

According to an actual imager having a dual camera according to an embodiment of the present invention, a camera photographed at a close distance and a camera photographed at a long distance are installed to be rotatable, so that a camera suitable for a focal length according to the shape and size of a subject is used. It improves the ease of use and provides the effect of getting good results.

In addition, it is supported by a stand that is folded while having a plurality of joints so that the height to shoot the camera body with the camera is installed on both sides rotatably is folded at the joint position according to the focal length of each camera to shoot while adjusting the height of the stand As it is possible to shoot in a fixed state according to the focal length of each camera, the flow is prevented while adjusting the focal length at each shooting position of each camera, so that a stable image can be taken and thus the shooting efficiency is improved. .

In addition, by installing the camera body rotatably installed on the stand folded at a plurality of joint positions can be stored and carried in a state that is folded to the minimum volume can be used while moving in the user's desired place to improve the convenience of use Provide effect.

In addition, the spring is installed as a joint part on the base on which the stand to be folded is supported and the camera body rotatably supported on the stand to maintain the pressurized state by the elastic force of the spring. By maintaining the closed state, no other angle maintaining device is required, and the angle can be adjusted by the rotational operation of the user, thereby providing an effect of improving convenience of use.

In addition, the magnet body is fixed to the inside of the base by the magnetic force is provided when the material is applied to the magnetic force in the position where the base is installed provides an effect that the fixing force is improved by maintaining a fixed state by the magnetic force.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view showing a folded state of a real imager in which a dual camera is installed according to an embodiment of the present invention.
FIG. 2 is a perspective view illustrating a state where an upper stanza is unfolded at a short distance photographing of a real imager provided with the dual camera of FIG. 1; FIG.
3 is a perspective view illustrating a state where the lower stand portion and the upper stand portion are unfolded during auto focusing shooting of the real imager having the dual camera of FIG. 1 installed therein; FIG.
Figure 4 is a side view showing a state in which the upper stand is unfolded when the near field shooting of the real imager is installed dual camera of FIG.
FIG. 5 is a side view illustrating a state where the lower stand portion and the upper stand portion are unfolded during auto focusing of the real imager provided with the dual camera of FIG. 1; FIG.
6 is a perspective view illustrating an exploded state of a base part and a base joint part, which are main parts of an actual imager in which the dual camera of FIG. 1 is installed;
7 is a perspective view illustrating a lower stand part which is a main part of an actual imager in which the dual camera of FIG. 1 is installed.
8 is a perspective view illustrating an exploded state of an upper stand part and a camera joint part, which is a main part of an actual imager in which the dual camera of FIG. 1 is installed;
9 is a perspective view illustrating a camera unit which is a main part of an actual imager in which the dual camera of FIG. 1 is installed.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

In describing the embodiments, descriptions of technical contents that are well known in the art to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly communicate without obscure the subject matter of the present invention by omitting unnecessary explanation.

For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated. In addition, the size of each component does not fully reflect the actual size. The same or corresponding components in each drawing are given the same reference numerals.

Hereinafter, the present invention will be described with reference to the drawings for explaining a real imager having a dual camera installed according to an embodiment of the present invention.

1 is a perspective view illustrating a folded state of a real imager provided with a dual camera according to an embodiment of the present invention, and FIG. 2 is a state in which the upper stanza is unfolded at a short distance shooting of the real imager provided with the dual camera of FIG. 1. 3 is a perspective view illustrating a state in which the lower stand portion and the upper stand portion are unfolded during auto focusing shooting of the real imager in which the dual camera of FIG. 1 is installed, and FIG. 4 is a close-up image of the real imager in which the dual camera of FIG. 1 is installed. 5 is a side view illustrating an unfolded state of the upper stand, and FIG. 5 is a side view illustrating an unfolded state of the lower stand portion and the upper stand portion during auto focusing of the real imager in which the dual camera of FIG. 1 is installed, and FIG. The disassembly state of the base part and the base joint part, which is the main part of the real imager with the camera 7 is a perspective view showing a lower stand portion which is a main part of the real imager provided with the dual camera of FIG. 1, and FIG. 8 is an upper stand portion and a camera joint part that is a main portion of the real imager provided with the dual camera of FIG. 1. It is a perspective view which shows the disassembled state, and FIG. 9 is a perspective view which shows the camera part which is a main part of the real imager in which the dual camera of FIG. 1 was installed.

1 to 9, the real imager 100 equipped with a dual camera according to an embodiment of the present invention may display a subject such as a picture, a photo, a book, an object, a creature, and a negative / slide / transparency film, and a map. It is used to enlarge and output the image. Two cameras with different focal lengths are installed to adjust the height according to each focal length and produce clear prints within the focal length. By selectively photographing in the middle, the photographing efficiency can be improved.

The physical imager 100 described above includes a base part 110, a base joint part 120, a lower stand part 130, an upper stand part 140, a camera joint part 150, and a camera part installed at a photographing position of a subject. 160.

The base unit 110 includes a base body 111, a seating protrusion 114, a terminal unit 117, and a magnetic body 118 disposed to be supported on one side of the subject. The base body 111 is disposed on one side where the subject is photographed, and the lower stand part 130, the upper stand part 140, and the camera part 160, which are hinged, are placed on the upper part while reducing the volume when folded. It is carried and stored in a state and is installed so as to maintain a state supported at the installation position in use.

An upper side of the base body 111 forms a lower stand part 130, an upper stand part 140, and a receiving surface 112 to which one side is contacted when the camera part 160 is folded, and a lower stand on the other side. An inclined surface 113 inclined downward toward the other side is formed to accommodate the position where the unit 130 and the upper stand unit 140 are hinged. The base body 111 contacts the receiving surface 112 and the inclined surface 113 at the time of folding the lower stand part 130, the upper stand part 140, and the camera part 160 to minimize volume. It can improve the convenience of storage and portability.

The mounting protrusions 114 protrude on one side of the base body 111, protrude apart from each other to have the camera seating space 115 accommodated when the camera unit 160 contacts the receiving surface 112, and the other side. It has a stand seating groove 116 of the groove shape to the other side facing each other so that a part of the upper stand portion 140 folded in the direction. The mounting protrusion 114 is protruded to protect a portion of one side of the camera unit 160 and the upper stand unit 140 toward one side of the receiving surface 112, and the camera unit 160 having two cameras installed thereon when being carried and stored. Can be protected to prevent breakage.

The terminal unit 117 is disposed on one side of the base body 111, and a plurality of terminals are provided to output an image photographed by the camera unit 160 while supplying power. The terminal unit 117 is provided in the form of a terminal so as to be connected to an external power supply and a display device to supply power to the camera unit 160 in which two cameras are installed, and to output various data photographed by the camera unit 160 to the outside. do.

The magnetic body 118 is disposed inside the base body 111, the base body 111 is installed to have a magnetic force to generate a fixed force by the magnetic force. The magnetic body 118 may be fixed by the magnetic force when the base body 111 is installed in the position where the magnetic force is applied.

The base joint part 120 includes a base joint body 121, a base shaft 123, a base spring 124, a base pressing body 125 hinged to the upper stand part 140 at an upper portion of the base body 111, And a stopper body 127. The base joint body 121 protrudes from one side center upper portion of the base body 111 and has a base joint hole 122 that protrudes at a position where the lower stand part 130 is inserted and penetrates laterally. The base joint body 121 is installed to protrude to one side of the center of the receiving surface so that the lower stand portion 130 is inserted.

The base shaft 123 is disposed to be inserted into the side of the base joint body 121, is inserted into the base joint hole 122 and protrudes on both sides of the base joint body 121, respectively, both sides of the lower stand portion 130 It is installed to hinge each.

The base spring 124 is disposed on one side of the base joint body 121, one side is hinged to the base shaft 123, the lower stand portion 130 is located on both sides of the base joint body 121 is inserted The base shaft 123 is inserted and installed to provide a pressing force by elasticity in the lateral direction.

The base pressurizer 125 is disposed on one side of the base spring 124 and presses the lower stand part 130 by the pressing force of the base spring 124 on one side that is in contact with the lower stand part 130. It has a base pressurizing hole 126 which is installed and penetrated so that the base shaft 123 may be inserted in the center. The base pressurizer 125 is inserted to the base shaft 123 and installed to continuously press the lower stand portion 130 hinged by the pressing force of the base spring 124.

That is, the lower stand part 130 is inserted into both sides of the base joint body 121 and is pressed to the base pressing member 125 by the pressing force of the base spring 124 in a state of being coupled to the base shaft 123. By maintaining the user can maintain the rotated state by the pressing force of the base spring 124 even after the lower stand 130 is rotated.

The stopper body 127 protrudes in the direction of the other side of the base joint body 121 and is inserted into the lower stand portion 130 hinged to the base shaft 123 to be rotated so that the rotation angle is limited.

The lower stand part 130 includes a lower stand body 131 disposed above the base body 111, and a stand joint body 135. The lower stand body 131 is disposed on an upper portion of the base body 111, is hinged to the base shaft 123, and when folded by rotation, is placed on the upper portion of the base body 111, and the upper stand portion 140 is disposed. When deployed together with the camera unit 160 is installed to be the auto focusing height.

A lower joint groove 132 having a groove shape into which the base joint body 121 is inserted is formed at a lower portion of the lower stand body 131, and the base shafts are disposed on both sides of the base shaft 132 in the inner side of the lower joint groove 132. Base shaft insertion grooves 133 are formed to be rotated about 123, respectively. The lower stand body 131 is provided so that the base shaft 123 hinged in the state in which the base joint body 121 is inserted into the lower joint groove 132 is inserted into the base shaft insertion groove 133 in the lower base body. It can be hinged to be folded and unfolded at the top of 111.

A stopper groove 134 having a groove shape for restricting the rotation angle of the stopper body 127 is inserted into the other side of the lower joint grooves 132 formed on the lower side of the lower stand body 131. do. The stopper groove 134 is formed in the form of a groove having a radius of rotation for limiting the angle of rotation around the outer periphery of the lower joint groove 132 into which the base shaft 123 is inserted into the other side of the two sides facing each other (stopper body ( When the lower stand body 131 is out of the rotation radius while the 127 is inserted, the lower stand body 131 is formed to limit the rotation angle of the lower stand body 131.

The stand joint body 135 protrudes above the base body 111 and is provided to protrude so that an insertion space 136 into which the upper stand part 140 is inserted is formed at both sides. On both sides of the stand articulation body 135, stand shafts 137 protruding from the insertion space 136 and hinged to the upper stand part 140 are inserted. The stand joint body 135 protrudes to have a stand shaft 137 which is a central axis in which the upper stand portion 140 is rotated while the insertion space 136 is formed to insert the upper stand portion 140 to both sides.

On one side of the stand joint body 135, the upper stand part 140 is inserted to form a stand stopper groove 138 having a groove shape that limits the angle of rotation in the hinged state. When the upper stand portion 140 is rotated and inserted into the stand stopper groove 138 to move out of the limited rotation radius of the upper stand portion 140, the rotation is stopped to limit the rotation.

The upper stand unit 140 includes an upper stand body 141 hinged to the lower stand body 131, and a lamp 148. The upper stand body 141 is disposed on both sides of the lower stand body 131, and is provided in a bar shape such that a stand insertion space 142 into which the lower stand body 131 is inserted is formed. Protruding to be inserted into the insertion space 136 on both sides facing each other in the direction of the stand joint body 135 of the upper stand body 141 has an upper side insertion groove 144 is inserted so that the stand shaft 137 is hinged The stand protrusion 143 is provided to protrude.

A stopper protrusion 145 protruding to be inserted into the stand stopper groove 138 is provided at one side of both sides facing each other of the stand protrusion 143 to be rotated together when the upper stand body 141 is rotated. When it is out of the way is stopped while being caught in the stand stopper groove 138 is provided to limit the angle of rotation of the upper stand body (141).

On the upper side where the camera unit 160 of the upper stand body 141 is hinged, the camera shaft insertion grooves 146 into which the camera joints 150 are inserted are formed at both sides in a direction facing each other, and the cameras are formed at both inner sides. A spring groove 147 having a groove shape is formed at one position of the shaft insertion groove 146 in the direction of the camera unit 160.

The lamp 148 is disposed on an upper portion of the upper stand body 141, and the upper stand body 141 and the lower stand body 131 are positioned in a lower direction when the close-up is photographed by the unfolding of the upper stand body 141. Unfolding together is installed so that the light is irradiated from the top to the lower position located at the bottom during auto focusing shooting.

The camera joint part 150 includes a camera joint axis 151, a camera spring 152, and a camera pressurizer 153 installed to connect an upper portion of the upper stand body 141. The camera joint shaft 151 is installed to connect the upper part of the upper stand body 141, and is provided in the form of a shaft that becomes the center where the camera unit 160 is rotatably inserted and rotated. The camera joint shaft 151 is hinged to the camera unit 160 to be rotatable while connecting the upper stand body 141 while being inserted into the camera shaft insertion groove 146, respectively.

The camera spring 152 is inserted into one side of the camera joint shaft 151, and is installed so that a pressing force by elasticity is applied to one side of the camera unit 160 hinged to the camera joint shaft 151. One side of the camera spring 152 is inserted into the spring groove 147, and the other side of the camera spring 152 is installed to press the camera unit 160.

The camera pressurizing member 153 is disposed between the camera spring 152 and the camera unit 160 and is installed to press the camera unit 160 by the pressing force of the camera spring 152 so that the camera joint shaft 151 is located at the center thereof. It has a camera pressing hole 154 to be inserted. The camera pressing body 153 presses the camera unit 160 by the pressing force of the camera spring 152, so that the camera unit 160 may maintain the rotated angle after the camera joint shaft 151 is rotated about the camera joint shaft 151.

The camera unit 160 includes a camera body 161 hinged to the camera joint unit 150, a proximity camera 163, and an auto focusing camera 164. The camera body 161 is disposed above the upper stand body 141, and a shaft hole 162 is rotatably inserted into the camera joint shaft 151 to be rotated at an upper position of the upper stand body 141. Is installed.

The proximity camera 163 is disposed on one surface of the camera main body 161 and is installed to one surface positioned at the lower side when the upper stand body 141 is unfolded so that the focal length is photographed at a short proximity distance.

The auto focusing camera 164 is disposed on the other side of the camera main body 161, and when the lower stand portion 130 and the upper stand portion 140 are unfolded together, the auto focusing camera 164 is installed on the other side corresponding to one surface positioned at the lower side of the proximity camera. 163 is set to shoot in an autofocused state with a longer focal length.

That is, the proximity camera 163 can take a picture in a state where the upper stand portion 140 is extended to match the focal length, and the auto focusing camera 164 can match the upper stand portion 140 and the lower portion to match the focal length that is autofocused. As the stand unit 130 can be unfolded and photographed together, the camera can be photographed while displacing the camera according to the focal length, thereby obtaining high quality results from each camera.

On the other hand, in the present specification and drawings have been described with respect to preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical details of the present invention and to help understand the design, It is not intended to limit the scope of the invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

Description of the Related Art
100: physical imager 110: base portion
111: base body 112: storage surface
113: slope 114: mounting projection
115: camera seating space 116: stand seating groove
117: terminal portion 118: magnetic body
120: base joint portion 121: base joint body
122: base joint hole 123: base axis
124: base spring 125: base pressing body
126: base pressurizing hole 127: stopper body
130: lower stand part 131: lower stand body
132: lower joint groove 133: base shaft insertion groove
134: stopper groove 135: stand articulation
136: insertion space 137: stand shaft
138: stand stopper groove 140: upper stand portion
141: upper stand body 142: stand insertion space
143: stand protrusion 144: upper shaft insertion groove
145: stopper projection 146: camera shaft insertion groove
147: spring groove 148: lamp
150: camera joint 151: camera joint axis
152: camera spring 153: camera pressing body
154: camera pressure hole 160: camera unit
161: camera body 162: shaft hole
163: proximity camera 164: auto focusing camera

Claims

Base part arranged on one side where the real is photographed,
A base joint part fixed to an upper part of the base part, protruding in an upper direction of the base part, and having a base shaft in both side directions of the base part at a position protruding upward;
A lower stand part disposed at an upper part of the base part and installed to be hinged to the base shaft and settled on an upper part of the base part when folded by rotation;
One side is hinged to the lower stand part, and has a insertion space into which the lower stand part is inserted at the time of folding by the rotation, and has a length that becomes a height to be photographed in a state unfolded in one direction and the lower stand in the other direction. The upper stand portion is installed so that the length becomes the height to be auto-focused in the unfolded state with the part,
A camera joint part disposed on the other side of the upper stand part and having a camera joint axis rotatably connected to the other side of the upper stand part;
It is disposed above the upper stand portion, rotatably connected to the camera joint axis is provided with a proximity camera to one surface located at the lower side when the upper stand portion is unfolded, when the lower stand portion and the upper stand portion are unfolded together And a camera unit having an auto focusing camera on the other surface corresponding to one surface positioned at a lower portion thereof.

The method of claim 1,
The base unit includes:
The real body is disposed on one side of the shooting, the lower stand portion, the upper stand portion, which is hinged, respectively, has a receiving surface on the upper side where one side is contacted when folding the camera portion, and the lower stand portion and the other side A base body having an inclined surface inclined downward toward the other side so that the hinged position of the upper stand part is received;
Protruding on one side of the base body, protruding away from each other so as to have a camera seating space that is received when the camera portion is in contact with the receiving surface, and facing each other so that a portion of the upper stand portion folded in the other direction is inserted A seating protrusion having a stand seating groove in the form of a groove, and
It is disposed on one side of the base body, the terminal unit is provided with a plurality of terminals for outputting the image taken by the camera unit while supplying power
The real imager installed with a dual camera comprising a.

The method of claim 2,
Is disposed inside the base body, the base body further comprises a magnetic force having a magnetic force to generate a fixed force by the magnetic force, the magnetic body is by the magnetic force when the base body is installed in a position where the magnetic force is applied The physical presenter installed with a dual camera, characterized in that the fixing force can be improved.

The method of claim 1,
The base joint portion,
A base joint body protruding from a central portion of the base portion and protruding at a position at which the lower stand portion is inserted and having a base joint hole penetrating in a lateral direction;
A base shaft disposed to be inserted into a side of the base joint body, the base shaft being inserted into the base joint hole and protruding from both sides of the base joint body to be hinged to both sides of the lower stand part;
It is disposed on one side of the base articulated body, the hinge is coupled to the base shaft and inserted into the base shaft to provide an urging force by elasticity in one side direction in which the lower stand portions respectively located on both sides of the base articulated body are inserted. Installed base spring,
A base pressurizing hole disposed on one side of the base spring and installed on one side of the base spring in contact with the lower stand part so as to press the lower stand part by a pressing force of the base spring, and penetrated so that the base shaft is inserted into the center; Base pressurizer having a, and
A stopper body protruding in the other side direction of the base articulated body and inserted into the lower stand part which is hinged to the base shaft and is rotated so that the rotation angle is limited.
Including;
The lower stand part is inserted into both sides of the base articulated body and hinged to the base shaft to maintain the pressurized state by the pressing force of the base spring by the pressing force of the base spring. The real imager provided with a dual camera, it characterized in that it can maintain the rotated state by the pressing force.

The method of claim 1,
The lower stand portion,
Is disposed above the base portion, is hinged to the base shaft when folded by rotation is placed in the upper portion of the base portion, when deployed together with the upper stand portion is installed so that the camera portion is the auto focusing height, The base joint has a lower joint groove of the groove shape to be inserted, the lower joint groove has a base shaft insertion groove which is respectively inserted to rotate about the base axis in both sides in the inner side facing each other, the lower joint A lower stand body having a groove-shaped stopper groove for restricting an angle at which the base joint portion is inserted and rotated on opposite sides of the groove, and
Protruding from the upper portion of the base portion, is provided so as to protrude so that the insertion space is inserted into the upper stand portion on both sides, protruding into the insertion space on both sides is provided with a stand shaft coupled to the upper stand portion and hinged Stand joint body having a stand stopper groove of the groove shape for limiting the angle of rotation in the hinged state is inserted into the upper stand portion on one side
The real imager installed with a dual camera comprising a.

The method of claim 1,
The upper stand portion,
It is disposed on both sides of the lower stand portion, provided in the form of a bar so that the stand insertion space is inserted into the lower stand portion is projected in the direction facing each other in the hinged position on the upper portion of the lower stand portion is inserted into the shaft A stand protrusion having a minor shaft insertion groove is provided to be hinged to the lower stand portion, and a stopper having a protrusion shape for limiting an angle of rotation of the stand protrusion being inserted into the lower stand portion to one side of both sides facing each other. It has a projection, the camera unit has a camera shaft insertion groove on both sides in the direction facing each other on the upper side hinged, the spring groove of the groove shape toward the camera portion toward one side of the camera shaft insertion groove formed on both sides inside An upper stand body, and
It is disposed above the upper stand body, and unfolds the upper stand body in the lower direction when shooting with the close-up camera and the upper stand body and the lower stand part together to unfold the lower portion when the auto focusing camera is photographed. Lamp installed to irradiate light on the upper part
The real imager installed with a dual camera comprising a.

The method of claim 1,
The camera joint portion,
Is installed to connect the upper portion of the upper stand portion, the camera joint axis provided in the form of a shaft that is the center of the camera is rotatably inserted and rotated,
A camera spring inserted into one side of the camera joint axis, the camera spring being installed to be elastically applied to one side of the camera part hinged to the camera joint axis, and
A camera pressurizing body disposed between the camera spring and the camera unit and installed to press the camera unit by the pressing force of the camera spring and having a camera pressurization hole into which the camera joint shaft is inserted;
Including;
And the camera pressurizing body presses the camera unit by the pressing force of the camera spring, so that the camera unit can maintain the rotated angle after rotating around the camera joint axis.

The method of claim 1,
The camera unit,
A camera body disposed above the upper stand part, the shaft body being rotatably inserted into the camera joint shaft and installed to rotate at an upper position of the upper stand part;
A proximity camera disposed on one surface of the camera main body and installed on one surface positioned at a lower side when the upper stand unit is unfolded, for photographing at a short distance of focal length; and
It is disposed on the other side of the camera body, when the lower stand portion and the upper stand portion is unfolded when installed on the other side corresponding to one surface located at the lower side of the auto-focused than the close-up camera to shoot in the auto-focused state Focusing camera
Including;
The proximity camera may be photographed with the upper stand unfolded to match a focal length, and the auto focusing camera may unfold and photograph the upper stand part and the lower stand part to match a focal length that is autofocused. Real presenter with dual camera installed.