JP3098108U - Multi-stage clip stand for small cameras - Google Patents

Abstract

A small-sized device having a three-stage adjustment type pinching function, which is fixed to a display device such as a CRT monitor, a notebook PC monitor, a slim type liquid crystal monitor, and a normal liquid crystal monitor, and is used for photographing relative to the display device. Multi-stage clip stand for camera.
The main component includes a fixed component, a movable component, a main holding component, and a sub holding component. The moving part interconnects with the fixed part via a spring 314. The main holding part and the sub holding part are rotatably connected to the lower part of the movable part. The spring forms a clamping space between the movable part and the fixed part. The main holding part is rotatable outward around the shaft center, or is rotated outward simultaneously with the sub holding part, and a second holding distance different between the sub holding part and the fixed part is different. A holding space and a second holding space are formed.
[Selection diagram] FIG.

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a kind of multi-stage clip stand. More particularly, the present invention relates to a multi-stage clip stand having a kind of three-stage adjustment system and functions of standing and holding.
[0002]
[Prior art]
With progress in video processing and transmission technology, bidirectional information communication means has been developed, and video photographing apparatuses mounted on a monitor of a television or a personal computer and transmitting a video to a partner have been widely applied.
A known video photographing device includes a lens and a stand at the bottom of the lens. The stand allows the lens to be placed on a desk, a monitor, or any suitable plane. Considering the height and distance of the shooting position, it is said that placement on the top of the monitor is optimal, and a slim-type liquid crystal In a monitor or a notebook PC equipped with a slim type monitor, the lens of the photographing apparatus is fixed to the upper part of the monitor by a sandwiching method. 1 is mainly composed of a slide clip 202, and includes a main part 208, a slide part 210, a heavy lead plate 212, and a spring 214. The slide part 210 corresponds to the main part 208 in a sliding manner, and the spring 214 connects the main part 208 and the slide part 210. As a result, the main body 208 and the slide 210 generate a clamping force for attaching the monitor to the frame via the spring, and the heavy lead plate 212 is installed at the bottom of the slide 210 for stability. The weight of the entire slide clip 202 is increased.
The above structure is applicable to general desktop PCs and notebook PCs, but has the following disadvantages.
First, since the overall outer shape is a three-dimensional rectangle, the volume is enormous and takes up space. Further, since the heavy lead plate 212 is installed, it is very heavy overall, which is disadvantageous for carrying.
Further, since the heavy lead plate 212 is installed on the slide portion 210, the spring 214 needs a strong attractive force to realize stable fixing. However, in practice, the spring 214 is a low-cost, low-gravity spring, and therefore has a limited ability to exhibit and a high failure rate.
In addition, since the stroke corresponding to the main portion 208 and the slide portion 210 is long, a situation in which the slide does not go smoothly is likely to occur, and the clamping force between the slide portion 210 and the main portion 208 is affected. .
[0003]
Still another structure is a “video camera support device” shown in FIGS. The support device includes a neck 12 of the video camera 10, a main arm 14 movably connected to the neck 12, a left arm 20 ′, and a right arm 20. The directions of rotation of the movable axes of the left arm 20 ′ and the right arm 20 are non-parallel to each other, the main arm 14 has a distal end 21, the left arm 20 ′, the right arm 20 is a key-like distal end 29 ′, It has 29. By unfolding the main arm 14, the left arm 20 ', and the right arm 20, it is possible to support the video camera 10 standing on a plane.
Also, as shown in FIG. 3, the left arm 20 ', the right arm 20, and the main arm 14 can be positioned or hung on both sides of the frames 76 and 76' having different inclination angles. However, this structure still has the following disadvantages.
First, the development angles of the main arm 14, the left arm 20 ', and the right arm 20 are fixed and cannot be adjusted. Next, when the hooked ends 29 ', 29 are hooked, adjusted, or moved over a liquid crystal monitor, the monitor may be worn out or leave a point-like compression mark. Further, since the video camera 10 is installed so as to be sandwiched only by the main arm 14, the left arm 20 ', and the right arm 20, the video camera 10 has low stability and causes problems such as defocusing. May move or fall due to impact.
[0004]
[Problems to be solved by the invention]
In order to solve the above-mentioned disadvantages of the known structure, an object of the present invention is to provide a multi-stage clip stand.
It has a three-stage elasticity adjustment method and an erecting function, and is suitable for pinching objects of various thicknesses, so that its application range is wide and practical.
It is also foldable, so it is convenient to store and carry.
[0005]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides the following multi-stage clip stand.
It is mainly composed of fixed parts, movable parts, main holding parts and sub holding parts.
The movable parts are interconnected by the elastic parts and the fixed parts. The main holding part and the sub holding part are movably connected to the bottom of the movable part. The resilient part forms a clamping space between the movable part and the fixed part. The main holding part rotates outwardly by itself around the shaft body, or rotates outward simultaneously with the sub-holding part, and the second holding part having a different distance between the sub-holding part and the fixed part. A space and a second holding space are formed.
[0006]
[Embodiment of the invention]
As shown in FIGS. 4, 5, 6, and 7, the stand 30 of the present invention includes a fixed component 31, a movable component 32, a main clamping component 33, and a sub clamping component.
An image capturing device 311 such as a PC camera or a digital camera is installed on the fixed component 31, and the image capturing device 311 includes a signal line 312. A signal line fixing part 318 is installed at the rear of the video photographing device 311, and the signal line 312 is formed in the signal line fixing part 318. Since the signal line fixing component 318 fixes the signal line 312, it is possible to prevent the swing of the signal line 312 from affecting the image capturing device 311. The signal line 312 can be connected to USB or IEEE (not shown), and can transmit a video image captured by the video image capturing device 311 to an external processing device.
The movable component 32 is disposed at the rear of the fixed component 31, and the main holding component 33 and the sub holding component 34 are rotatably mounted on the movable component 32 by a shaft 35.
The movable component 32 and the main holding component 33 are arranged facing the fixed component 31.
[0007]
Next, as shown in FIGS. 8, 9, 10, and 11, the movable component 32 is disposed at the rear of the fixed component 31, and the fixed component 31 has a pair of pillars 313 opposed to the movable component 32. Install. A spring 314 is inserted through the column 313, and localization blocks 315 and 316 are set on the column 313 at both ends of the spring 314. A concave groove 321 is provided at a position corresponding to the column 313 and the spring 314 of the movable part 32, and the column 313, the spring 314, and the positioning blocks 315 and 316 are fitted into the groove 321. . As a result, the positioning blocks 315 and 316 and the concave groove 321 correspond to each other closely, and the column 313 and the spring 314 are positioned in the concave groove 321. Thus, the movable part 32 and the fixed part 31 Connected via a spring. Further, due to the spring 314, the movable component comes into close contact with the fixed component 31 or separates and moves along the axial direction of the column 313 by the elastic force of the spring 314.
Furthermore, in order to improve the stability of the movable component 32 during movement, a convex piece 317 is provided on the surface of the fixed component 31 facing the movable component 32, and the convex piece 317 corresponding to the convex piece 317 of the movable component 32 is provided. The fitting groove 322 is set at a position where the protrusion 317 is to be made, and the convex piece 317 is inserted into the fitting groove 322.
Thus, the connection strength between the movable component 32 and the fixed component 31 is increased, and the forces received by the column 313, the spring 314, and the localization blocks 315, 316 are shared. Can be provided.
As shown in FIG. 11, when the movable part 32 is pulled and moved, the main holding part 33 and the sub holding part 34 are installed on the movable part 32 so as to be rotatable. 33, the sub-clamping parts 34 can be moved together. Further, an interval distance D1 is formed between the main holding part 33 and the fixed part 31 so that the main holding part 33 and the fixed part 31 can be held on the object 40, and the video photographing device 311 can be localized on the object 40. The object 40 is a notebook PC monitor or other thin object.
[0008]
Subsequently, as shown in FIGS. 8, 12, and 13, the main holding component 33 has a hollow portion 331, and the sub holding component 34 fits into the hollow portion 331. The main holding part 33 and the sub holding part 34 have a substantially L-shape, and the main holding part 33 and the sub holding part 34 are rotatably installed at the rear of the movable part 32 by the shaft 35. The main holding part 33 and the sub holding part 34 are integrated as shown in FIG. 12, and come into contact with the fixed part 31 and the movable part 32 to form an integral part. The fixed component 31, the main holding component 33, and the sub holding component 34 constitute a flat bottom, and enable the video photographing device 311 to stand on a plane.
Alternatively, as shown in FIG. 8, the main holding part 33 and the sub holding part 34 rotate together with the shaft 35 as an axis, and the main holding part 33, the sub holding part 34 and the fixed part 31 are rotated. An interval distance D2 is formed between them. The distance D2 is larger than the distance D1, and another object 50 thicker than the object 40 can be clamped between the fixed component 31 and the main clamping component 33.
Further, as shown in FIG. 13, when only the main holding part 33 is rotated and the sub holding part 34 holds its position, the distance D3 is set between the sub holding part 34 and the fixed part 31. Form. The distance D3 is smaller than the distance D2, and can hold another object 60 thinner than the object 5040.
[0009]
Next, as shown in FIG. 14, when the main holding part 33 and the sub holding part 34 are rotated together and the movable part 32 is separated from the fixed part 31, in the present invention, the maximum distance D 4 is set. Form. Thus, the image capturing device 311 is positioned and fixed on the object 70 having a large thickness. The object 70 is a relatively thick liquid crystal monitor.
When the main holding part 33 is moved outward, the sub holding part 34 keeps its original position, and when the movable part 32 is separated from the fixed part 31, the present invention forms a minimum distance D 5. . As a result, the image capturing device 311 is localized on the object 80 having a small thickness. The object 80 is a slim type liquid crystal monitor.
That is, the present invention can be applied to all of the distances D1, D2, D3, and D4.
[0010]
[Effect of the invention]
As described above, the present invention has a three-stage holding function with standing and elasticity, and can be used for objects of various thicknesses such as a CRT monitor, a notebook PC monitor, a slim type LCD monitor, a normal LCD monitor, Extremely practical and economical.
[Brief description of the drawings]
FIG. 1 is a structural diagram of a known clamping and fixing device.
FIG. 2 is a three-dimensional external view of a known “camera support device”.
FIG. 3 is an instruction diagram of holding parts of a known “camera support device”.
FIG. 4 is a front view of the present invention.
FIG. 5 is a side view of the present invention.
FIG. 6 is a rear view of the present invention.
FIG. 7 is a bottom view of the present invention.
FIG. 8 is a side sectional view showing a state in which the main holding component and the sub holding component are rotated outward in the present invention.
FIG. 9 is a bottom sectional view showing a state in which the main holding component and the sub holding component are rotated outward in the present invention.
FIG. 10 is a structural exploded view of the fixed part and the movable part of the present invention.
FIG. 11 is a side view showing how the present invention clamps an object.
FIG. 12 is a partial cross-sectional side view of the present invention when housed.
FIG. 13 is a side view showing how the present invention clamps an object with the sub-clamping component and the fixed component.
FIG. 14 is a side view showing how the present invention clamps articles having different thicknesses.
FIG. 15 is a side view showing how the present invention clamps articles having different thicknesses.
[Explanation of symbols]
Reference Signs List 10 video camera 12 neck 14 main arm 20 'left arm 20 right arm 21 end 29' key end 202 slide clip 208 main part 210 slide part 212 heavy lead plate 214 spring 30 stand 31 fixed part 311 image photographing device 312 signal line 313 Column 314 Spring 315 Orientation block 316 Orientation block 317 Convex piece 318 Signal line fixing part 32 Moving part 321 Concave groove 322 Fitting groove 33 Main holding part 331 Hollow part 34 Sub holding part 35 Shaft 76 Frame body 76 'Frame body 40 Object 50 Object 60 Object 70 Object 80 Object D1 Interval D2 Interval D3 Interval D4 Interval D5 Interval

Claims (7)

It mainly comprises a fixed part, a movable part, a main holding part, and a sub-holding part. The movable part is connected to the fixed part via at least one elastic part, and the main holding part is connected to the shaft body on one side. Is installed so that it can rotate,
The sub clamping part is provided along the main clamping part,
A first holding space is formed between the movable part and the fixed part by the elastic force of the elastic part, and the main holding part pivots outward alone with the shaft as an axis, or the sub-holding A second holding space and a second holding space having different distances between the main holding part, the sub holding part, and the fixed part; Stage clip stand. The multi-stage clip stand according to claim 1, wherein the main holding part and the sub holding part are rotatably connected by the shaft. The multi-stage clip stand according to claim 1, wherein a hollow portion is provided in the main holding component, and the sub holding component is rotatably provided in the hollow portion. The fixed component is provided with at least one column in the axial direction toward the movable component, the elastic component is inserted through the column, the movable component is provided with a corresponding concave groove, The multi-stage clip stand according to claim 1, wherein the elastic component is accommodated therein. A convex piece is installed on the surface of the fixed component facing the movable part, a fitting groove is provided at a position corresponding to the convex piece of the movable part, and the convex piece is inserted into the fitting groove, The multi-stage clip stand according to claim 1, wherein a connection strength between the fixed component and the movable component is improved. The multi-stage clip stand according to claim 1, wherein the main holding part and the sub-holding part are folded, closely attached to the movable part, and provide an upright function to the clip stand. The multi-stage clip stand according to claim 1, wherein a video photographing device is installed on the fixed component.

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