A mobile column for a multi-view three-dimensional body scanner

By designing a mobile column for a multi-view 3D human body scanner, using an irregularly shaped column composed of a rotating part, an extension part, and a connecting part, the problem of column spacing affecting human entry and exit is solved, and the entry range is expanded without affecting the scanning effect.

CN224381089UActive Publication Date: 2026-06-19XIAMEN SUXIANG TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN SUXIANG TECH CO LTD
Filing Date
2025-07-16
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

The existing 3D human body scanners have a column distribution that results in either too small a column spacing affecting human movement or too large a column spacing affecting scanning results.

Method used

Design a mobile column for a multi-view 3D human body scanner. The column is an irregularly shaped column composed of a rotating part, an extension part, and a connecting part. The connecting part can deflect around the rotating part to expand the entrance range.

Benefits of technology

Without compromising scanning quality, it expands the space for people to enter and exit, thus improving the user experience.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224381089U_ABST
    Figure CN224381089U_ABST
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Abstract

The utility model relates to a mobile stand of multi -perspective three -dimensional human body scanner, including door frame bottom plate, door frame cover and two door frame stand, two door frame stands are located between door frame bottom plate and door frame cover, and the door frame stand includes rotation part, extension and connecting part, and rotation part, extension and connecting part connect in proper order, and the upper end and lower end of rotation part are hinged with door frame bottom plate and door frame cover respectively, and the upper and lower ends of connecting part are detachably connected with door frame bottom plate and door frame cover, the door frame column body is designed into the special-shaped stand column shape with rotation part, extension and connecting part, and the connecting part corresponds the original traditional door frame stand, the rotation part is used for and door frame bottom plate and door frame cover swing joint, and the extension is used for connecting connecting part and rotation part, and is thus arranged, when the personnel need to enter or leave the scanner, the connecting part is pushed, and the connecting part will deflect around the rotation part, and the entrance range is enlarged.
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Description

Technical Field

[0001] This utility model belongs to the field of 3D human body scanner technology, specifically relating to a movable column for a multi-view 3D human body scanner. Background Technology

[0002] Currently, 3D human body scanners use evenly distributed columns to ensure balanced camera distribution. However, if the column spacing is too small, it affects people's entry and exit, while if the column spacing is too large, it will affect the actual scanning effect. To solve the above problems, this solution was developed. Utility Model Content

[0003] In view of the shortcomings of the prior art, the technical problem to be solved by this utility model is to provide a movable column for a multi-view three-dimensional human body scanner, the door frame column of which can rotate.

[0004] To solve the above-mentioned technical problems, the technical solution adopted by this utility model is: a movable column for a multi-view three-dimensional human body scanner, including a door frame base plate, a door frame cover plate, and two door frame columns. The two door frame columns are located between the door frame base plate and the door frame cover plate. Each door frame column includes a rotating part, an extension part, and a connecting part. The rotating part, the extension part, and the connecting part are connected in sequence. The upper and lower ends of the rotating part are respectively hinged to the door frame base plate and the door frame cover plate. The upper and lower ends of the connecting part are detachably connected to the door frame base plate and the door frame cover plate.

[0005] Furthermore, the cross-sectional shape of the water surface of the connecting part of the door frame column is square, and the upper and lower surfaces of the connecting part are provided with limit holes.

[0006] Furthermore, the number of limiting holes is four, and they are arranged in a matrix.

[0007] Furthermore, the door frame bottom plate includes a first horizontal plate and two first inclined plates. The two first inclined plates are connected to both sides of the first horizontal plate and are inclined outward and upward. A first hinge post is formed on the first horizontal plate. A first hinge hole is formed on the lower surface of the rotating part. The first hinge post is hinged to the first hinge hole. A through hole is formed on the side of the first inclined plate near the first horizontal plate. The through hole corresponds vertically to the limiting hole.

[0008] Furthermore, baffles are formed at both ends of the first inclined plate on the side away from the first horizontal plate.

[0009] Furthermore, a folding plate extends inward from the upper end of the baffle, and a first connecting hole is provided on the folding plate.

[0010] Furthermore, an L-shaped plate is formed at the end of the first inclined plate, wherein the lateral portion of one L-shaped plate is located at the upper end of the vertical portion and extends outward, and the lateral portion of the other L-shaped plate is located at the upper end of the vertical portion and extends inward, and a second connecting hole is formed on the lateral portion of the L-shaped plate.

[0011] Furthermore, the door frame cover plate includes three plates. The horizontal cross-section of each plate is rectangular. A third connecting hole is formed at both ends of each plate. The inclined surfaces of two adjacent plates fit together. A connecting plate is provided on the upper surface of the adjacent third connecting hole of two adjacent plates. A through hole is formed on the connecting plate. Two connectors are screwed into the connecting hole through the through hole to fix the two adjacent plates.

[0012] Furthermore, a second hinge post is formed on the lower surface of the plate on both sides, and a second hinge hole is formed on the upper surface of the rotating part, wherein the second hinge post is hinged to the second hinge hole.

[0013] Furthermore, the three plates are integrally formed.

[0014] Compared with the prior art, the present invention has the following beneficial effects:

[0015] This utility model designs the door frame column as an irregular column with a rotating part, an extension part, and a connecting part. The connecting part corresponds to the original traditional door frame column, the rotating part is used to rotatably connect with the door frame base plate and the door frame cover plate, and the extension part is used to connect the connecting part and the rotating part. With this configuration, when people need to enter or leave the scanner, they push the connecting part, and the connecting part will deflect around the rotating part, thus expanding the entrance area. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of the present invention installed on a scanner;

[0017] Figure 2 This is a three-dimensional structural diagram of the bottom plate of the door frame in this utility model;

[0018] Figure 3 This is a three-dimensional structural diagram of the position of the first inclined plate in this utility model;

[0019] Figure 4 This is a three-dimensional structural diagram of the door frame cover plate in this utility model;

[0020] Figure 5 This is a top view of the door frame column of this utility model.

[0021] The markings in the diagram are: 1. Door frame bottom plate; 11. First horizontal plate; 12. First inclined plate; 13. Baffle; 131. Folding plate; 14. L-shaped plate; 2. Door frame cover plate; 21. Plate body; 211. Third connecting hole; 3. Door frame column; 31. Rotating part; 32. Extension part; 33. Connecting part; 331. Limiting hole. Detailed Implementation

[0022] To make the above-mentioned features and advantages of this utility model more apparent and understandable, specific embodiments are described below in conjunction with the accompanying drawings for detailed explanation.

[0023] like Figures 1-5 As shown, this embodiment provides a movable column for a multi-view 3D human body scanner, including a door frame base plate 1, a door frame cover plate 2, and two door frame columns 3.

[0024] Two door frame columns 3 are located between the door frame bottom plate 1 and the door frame cover plate 2. Specifically, the door frame column 3 includes a rotating part 31, an extension part 32 and a connecting part 33. The rotating part 31, the extension part 32 and the connecting part 33 are connected in sequence. The water surface cross-section of the connecting part 33 of the door frame column 3 is square. Limiting holes 331 are provided on the upper and lower surfaces of the connecting part 33. There are four limiting holes 331 arranged in a matrix.

[0025] The door frame base plate 1 includes a first horizontal plate 11 and two first inclined plates 12. The two first inclined plates 12 are connected to both sides of the first horizontal plate 11 and are inclined outward and upward. A first hinge post is formed on the first horizontal plate 11. A first hinge hole is formed on the lower surface of the rotating part 31. The first hinge post is hinged to the first hinge hole. Four through holes are formed on the side of the first inclined plate 12 near the first horizontal plate 11. The through holes correspond to the limiting holes 331 vertically. When fixation is required, screws are screwed into the limiting holes 331 through the through holes to achieve fixation. Under normal use, no tightening is required.

[0026] Preferably, baffles 13 are formed at both ends of the first inclined plate 12 away from the first horizontal plate 11. The presence of baffles 13 can limit the rotation range of the door frame column 3. A folding plate 131 extends inward from the upper end of the baffle 13. A first connecting hole is provided on the folding plate 131. The folding plate 131 and the first connecting hole are provided for connection with the side plate (not shown in the figure).

[0027] Preferably, an L-shaped plate 14 is formed at the end of the first inclined plate 12. The horizontal part of one L-shaped plate 14 is located at the upper end of the vertical part and extends outward, while the horizontal part of the other L-shaped plate 14 is located at the upper end of the vertical part and extends inward. The vertical part of the outward-extending L-shaped plate 14 is higher than the vertical part of the inward-extending L-shaped plate 14. A second connecting hole is formed on the horizontal part of the L-shaped plate 14. The L-shaped plates 14 arranged as described above are provided on both sides of the end face of the remaining base plates. When the two base plates or the base plate and the door frame base plate 1 are spliced, the horizontal part of the outward-extending L-shaped plate 14 is placed on the horizontal part of the inward-extending L-shaped plate 14 and the two second connecting holes correspond to each other. The two base plates or the base plate and the door frame base plate 1 are fixed by screwing in screws.

[0028] The door frame cover plate 2 includes three plates 21. The horizontal cross-sectional projection of the plates 21 is rectangular. Two third connecting holes 211 are formed at both ends of the plates 21. The four third connecting holes 211 of the two plates 21 correspond to the four limiting holes 331 on the upper surface of the connecting part 33. The inclined surfaces of the two adjacent plates 21 fit together. A connecting plate is provided on the upper surface of the adjacent third connecting holes 211 of the two adjacent plates 21. A through hole is formed on the connecting plate. The two adjacent plates 21 are fixed by two connectors passing through the through hole and being screwed into the connecting hole. The plates 21 have a certain thickness. When the connectors (screws) are not screwed in too deeply, the connecting plate can fix the middle plate 21 so that it will not fall off when the door frame post 3 is rotated open. When it is necessary to fix the door frame post 3, the limiting holes 331 of the connecting part 33 are aligned with the third connecting holes 211 of the two plates 21 and then the connectors are screwed in. The lower surfaces of the plates 21 on both sides have second hinge posts, and the upper surfaces of the rotating parts 31 have second hinge holes. The second hinge posts are hinged to the second hinge holes (the positions of the second hinge posts and the second hinge holes can also be reversed). In this solution, the three plates 21 in the door frame cover plate 2 can also be integrally formed.

[0029] This design transforms the door frame column into an irregular column shape with a rotating part 31, an extension part 32, and a connecting part 33. The connecting part 33 corresponds to the original traditional door frame column 3. The rotating part 31 is used to rotatably connect with the door frame base plate 1 and the door frame cover plate 2. The extension part 32 is used to connect the connecting part 33 and the rotating part 31. With this configuration, when personnel need to enter or leave the scanner, pushing the connecting part 33 will cause the connecting part 33 to deflect around the rotating part 31, thus expanding the entrance area.

[0030] The foregoing has shown and described the basic principles and main features of this invention, as well as its advantages. Those skilled in the art should understand that this invention is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this invention. Various changes and modifications can be made to this invention without departing from its spirit and scope. All such changes and modifications fall within the scope of this invention as defined by the appended claims and their equivalents.

Claims

1. A movable column for a multi-view 3D human body scanner, characterized in that: The device includes a door frame base plate, a door frame cover plate, and two door frame uprights. The two door frame uprights are located between the door frame base plate and the door frame cover plate. Each door frame upright includes a rotating part, an extension part, and a connecting part, which are connected in sequence. The upper and lower ends of the rotating part are hinged to the door frame base plate and the door frame cover plate, respectively. The upper and lower ends of the connecting part are detachably connected to the door frame base plate and the door frame cover plate.

2. The movable column of a multi-view 3D human body scanner according to claim 1, characterized in that: The cross-sectional shape of the water surface of the connecting part of the door frame column is square, and the upper and lower surfaces of the connecting part are provided with limit holes.

3. The movable column of a multi-view 3D human body scanner according to claim 2, characterized in that: The number of limiting holes is four, and they are arranged in a matrix.

4. The movable column of a multi-view 3D human body scanner according to claim 2, characterized in that: The door frame bottom plate includes a first horizontal plate and two first inclined plates. The two first inclined plates are connected to both sides of the first horizontal plate and are inclined outward and upward. A first hinge post is formed on the first horizontal plate. A first hinge hole is formed on the lower surface of the rotating part. The first hinge post is hinged to the first hinge hole. A through hole is formed on the side of the first inclined plate near the first horizontal plate. The through hole corresponds vertically to the limiting hole.

5. The movable column of a multi-view 3D human body scanner according to claim 4, characterized in that: The first inclined plate has baffles at both ends on the side away from the first horizontal plate.

6. The movable column of a multi-view 3D human body scanner according to claim 5, characterized in that: The upper end of the baffle plate extends inward with a folded plate, and the folded plate is provided with a first connecting hole.

7. The movable column of a multi-view 3D human body scanner according to claim 5, characterized in that: The first inclined plate has an L-shaped plate at its end. The horizontal portion of one L-shaped plate is located at the upper end of the vertical portion and extends outward. The horizontal portion of the other L-shaped plate is located at the upper end of the vertical portion and extends inward. A second connecting hole is formed on the horizontal portion of the L-shaped plate.

8. The movable column of a multi-view 3D human body scanner according to claim 1, characterized in that: The door frame cover plate includes three plates. The horizontal cross-section of each plate is rectangular. A third connecting hole is formed at both ends of each plate. The inclined surfaces of two adjacent plates fit together. A connecting plate is provided on the upper surface of the adjacent third connecting hole of two adjacent plates. A through hole is formed on the connecting plate. Two connectors are screwed into the connecting hole through the through hole to fix the two adjacent plates.

9. The movable column of a multi-view 3D human body scanner according to claim 8, characterized in that: A second hinge post is formed on the lower surface of the plate on both sides, and a second hinge hole is formed on the upper surface of the rotating part. The second hinge post is hinged to the second hinge hole.

10. The movable column of a multi-view 3D human body scanner according to claim 8, characterized in that: The three plates are integrally formed.