CN204949661U - Pancam helmet - Google Patents

Abstract

The utility model discloses a pancam helmet, include the utility model discloses pancam helmet the outer helmet main part that constitutes with the inlayer is equipped with panorama camera device in helmet main part, this panorama camera device includes be equipped with panorama camera device in helmet main part that this panorama camera device is including controlling two fisheye lens that processing module and optical axis are located same straight line and symmetric distribution to and cooperate two electro -optical imaging sensors that just are fixed in the PCB board with two fisheye lens. Because pancam has fisheye lens respectively, the possible visual scope of every fisheye lens is close to 180 degrees, and two fisheye lens then can be so that visual scope be close to 360 degrees left and right sides, and the image that forms two visual scopes of fisheye lens synthesizes through special image processing software, can generate complete panoramic picture to reach the panoramic shooting effect, can avoid ordinary camera device to have the dead angle of making a video recording, increase the enjoyment of riding and making a video recording.

Description

The panoramic shooting helmet

Technical field

The utility model relates to outdoor exercises safeguard technology field, particularly relates to a kind of panoramic shooting helmet.

Background technology

Bicycle is the most frequently used walking-replacing tools of people, and rises along with outdoor exercises, and increasing fan is using the mode of cycling as tourism, sports, leisure.

Existing bicyclist usually wears crash helmet and carries out passive protection when riding, protect after preventing accidentally tumble to important head.In order to increase the enjoyment of riding, landscape when riding can be recorded, having occurred, on the helmet, microcam is installed, but due to the camera camera angle of video camera limited, cannot panoramic shooting be accomplished.

Summary of the invention

The technical problem that the utility model mainly solves is to provide a kind of panoramic shooting helmet, and this panoramic shooting helmet can avoid common camera head to there is shooting dead angle, improves shooting visual range.

In order to solve the problems of the technologies described above, the utility model provides a kind of panoramic shooting helmet, this panoramic shooting helmet, comprise helmet body that is outer and internal layer formation, helmet body is provided with panorama camera device, this panorama camera device is included in helmet body and is provided with panorama camera device, this panorama camera device comprises control treatment module and optical axis is positioned at same straight line and symmetrical two fish eye lenses, and coordinates with two fish eye lenses and be fixed on two electro-optical imaging sensors of pcb board.

Say further, be provided with a speculum arranged in miter angle in each fish-eye optical focal length position, the reflected light path of this speculum is identical with the light path that electro-optical imaging sensors receives.

Say further, between internal layer and skin, be provided with the FPC plate of plurality of LEDs lamp, be provided with at the skin of LED opposite position the printing opacity protruded laterally protruding.

Say further, described printing opacity projection be provided with latticed printing opacity grid.

Say further, in printing opacity projection, be provided with the light transmission medium of coated LED.

Say further, described light transmission medium comprises PC or silica gel.

Say further, in printing opacity, projection is spherical crown shape or hemispherical to described printing opacity projection.

Say further, be provided with closed ring rib outside described printing opacity projection, between this ring rib and printing opacity projection, form annular groove.

Say further, outer field inner side is coated the coating merged with internal layer before interior formable layer.

The utility model panoramic shooting helmet, comprise helmet body that is outer and internal layer formation, helmet body is provided with panorama camera device, this panorama camera device is included in helmet body and is provided with panorama camera device, this panorama camera device comprises control treatment module and optical axis is positioned at same straight line and symmetrical two fish eye lenses, and coordinates with two fish eye lenses and be fixed on two electro-optical imaging sensors of pcb board.Because full-view camera is respectively with fish eye lens, each fish eye lens can accomplish that visual range is close to 180 degree, two fish eye lenses then can make visual range close to about 360 degree, the image formed at two fish eye lens visual ranges is synthesized by special image processing software, complete panoramic picture can be generated, thus reach panoramic shooting effect, common camera head can be avoided to there is shooting dead angle, increase the enjoyment of shooting of riding.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, and the accompanying drawing in describing is embodiments more of the present utility model, to those skilled in the art, under the prerequisite not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is full-view camera example structure schematic diagram.

Fig. 2 is that the protruding embodiment of printing opacity faces structural representation.

Fig. 3 is along B-B direction sectional structure schematic diagram in Fig. 2.

Fig. 4 is C part-structure enlarged diagram in Fig. 3.

Fig. 5 is that printing opacity another embodiment protruding faces structural representation.

Fig. 6 is the another kind of example structure schematic diagram of full-view camera.

Below in conjunction with embodiment, and with reference to accompanying drawing, the realization of the utility model object, functional characteristics and advantage are described further.

Detailed description of the invention

In order to make the object of utility model, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, the every other embodiment that those of ordinary skill in the art obtain under the prerequisite not making creative work, all belongs to the scope of the utility model protection.

As shown in Figure 1 to Figure 2, the utility model proposes a kind of panoramic shooting helmet embodiment.

This panoramic shooting helmet comprises: the helmet body comprising outer 1 and internal layer 2 formation, helmet body is provided with panorama camera device, this panorama camera device comprises control treatment module and optical axis is positioned at same straight line and the first symmetrical fish eye lens 8 and the second fish eye lens 9, and coordinates with the first fish eye lens 8 and the second fish eye lens 9 and be fixed on the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 of pcb board 10.

Specifically, described first electro-optical imaging sensors 6 forms light-path with the first fish eye lens 8 respectively, second electro-optical imaging sensors 7 and the second fish eye lens 9 form light-path, namely each electro-optical imaging sensors is provided with a fish eye lens, by fish-eye propagate light energy on the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7.

Described control treatment module (accompanying drawing does not indicate) carries out synthesis process for the image the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 generated.Two fish eye lenses are separately positioned on pcb board 10 two sides, and position is identical, and namely the optical axis of the first fish eye lens 8 and the second fish eye lens 9 is positioned at same straight line, and the first fish eye lens 8 and the second fish eye lens 9 with pcb board 10 for the distribution of symmetry axis axial symmetry.First electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 are located at the first fish eye lens 8 and the second fish eye lens 9 appropriate location respectively, the image that described first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 obtain carries out synthesis by control treatment module and processes, the panoramic picture generated.Described first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 can adopt existing CCD or cmos sensor.

Because the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 are respectively with a fish eye lens, each fish eye lens can accomplish that visual range is close to 180 degree, two fish eye lenses then can make visual range close to about 360 degree, the image formed at two fish eye lens visual ranges is synthesized by special image processing software, complete panoramic picture can be generated, thus reach panoramic shooting effect, common camera head can be avoided to there is shooting dead angle, increase the enjoyment of shooting of riding.

As shown in figs 2-4, the described panoramic shooting helmet also comprises: the helmet body of internal layer 2 formation of skin 1 and damping, and the luminous lamp strip be located between described internal layer 2 and outer 1, this luminous lamp strip comprises FPC plate 3 and is located at least one LED 31 of FPC plate 3, and the skin 1 of described LED 31 correspondence position is provided with the printing opacity projection 11 protruded laterally.

Specifically, the quantity of described LED 31 is not limit, and can be one, two or more.Because lighting helmet is normally by could forming surface light source or line source during multiple LED 31, described LED 31 correspondence position need arrange particular location when referring to and make lighting helmet, as when lighting helmet front portion arranges LED 31, then need arrange printing opacity projection 11 at the skin of the anterior relevant position of lighting helmet, described LED 31 is accommodated in printing opacity projection 11.

Described outer 1 adopts PC material, usually if PC sheet is through plastics sucking moulding.Described internal layer 2 adopts the material that density is little usually, as EPS material, can alleviate the weight of the helmet, have good damping performance simultaneously.Under high-temperature and high-pressure conditions, by pressure injection, EPS material is formed one with outer.The quantity of described printing opacity projection 11 and the quantity of LED 31 are quite, the shape size of described printing opacity projection 11 is arranged as required, can be spherical crown shape, hemispherical or other shapes, preferably can with the sizableness of LED 31, when LED 31 is accommodated in described printing opacity projection 11, described FPC plate 3 can be best with smooth engagement inside skin 1 just.

Because outer 1 when plastics sucking moulding, multiple printing opacity projection 11 can be formed, described printing opacity projection 11 refer to LED light by.Again luminous lamp strip is fixed on outer 1, the FPC plate 3 being about to be provided with at least one LED 31 is fixed on outer 1, LED 31 is made just to be positioned at printing opacity projection 11, described FPC plate 3 can with outer 1 inside smooth engagement, make the gap between the FPC plate 3 and outer 1 that LED 31 is nearer minimum, be not easy to make to have between FPC plate 3 and outer 1 comparatively wide arc gap and occur phenomenon of rupture when pressure injection internal layer EPS expects at high temperature under high pressure, thus yield rate when can improve formed product, improve the rate that comes into force, reduce production cost.Simultaneously because LED is located in printing opacity projection, LED, higher than superficies, makes the wider of the emergent light of LED.

Although LED 31 power is little, brightness is comparatively large, examines filter to the restriction of helmet power supply capacity, thus adopts LED 31 can improve fluorescent lifetime as electric light source, when not examining filter battery capacity, other electroluminescent device can certainly be adopted to replace LED 31.

Described outer 1 with when adopting the internal layer 2 of EPS material injection to combine closely to form the helmet, because EPS material granule is larger, be difficult to the comparatively areola entering protruding 11 formation of printing opacity, thus after helmet forming, all empty except LED 31 in described printing opacity protruding 11, cause printing opacity protruding 11 little by force intensity, easily occur distortion when protruding 11 slight impact of printing opacity, easily damage the LED 31 in printing opacity projection 11.

In order to solve the printing opacity after helmet forming protruding 11 stressed time be easily out of shape and damage LED 31 problem, as Figure 3-Figure 4, the basis of above-described embodiment also provides another kind of lighting helmet embodiment.

Specifically, the outside of described printing opacity projection 31 is provided with ring rib 14, forms annular groove 15 between ring rib 14 and printing opacity projection 11, and other structures are same as the previously described embodiments.Owing to being provided with ring rib 14 in the outside of printing opacity projection 31, can play a protective role to printing opacity projection 31, increase the bulk strength of printing opacity projection 31 simultaneously.

In order to increase the angle of LED 31 emergent light further, the light transmission medium 5 of coated LED is provided with in the cavity that cavity or the printing opacity projection 11 of protruding 11 formation of printing opacity are formed together with ring rib 14, this light transmission medium can be PC or silica gel material, also can be that other can light transmissive material.Because the refractive index of light transmission medium is greater than air, LED 31 can be made larger by the shooting angle of light transmission medium 5 emergent light, be conducive to the visual range increasing LED 31 emergent light.Light transmission medium 5 is filled before internal layer 2 high temperature and high pressure is shaping simultaneously; gap between the FPC plate 3 and outer 1 that LED 31 is nearer is filled; both can protect FPC plate 3, also can play protection to LED 31, printing opacity protruding 11 can also be increased by force intensity.

Because LED 31 is as light source, its brightness is large, more dazzling, affects sight line; When multiple LED 31 is especially set, can sight line be had a strong impact on, latticed printing opacity grid 12 can be provided with in described printing opacity projection 11, as shown in Figure 5.Described latticed printing opacity grid 12 is located at inner side or the outside of printing opacity projection 11.LED 31 can be made more soft by light after latticed printing opacity grid 1, reduce the interference of vision.

Because the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 lay respectively on pcb board 10, when pcb board 10 comparatively thickness time, between pcb board 10 caliper zones, there is shooting stay region, during the image of generation, binding site cannot form natural sparse model.In order to address this problem, also provide another kind of embodiment.

As shown in Figure 6, described pcb board 10 is provided with two speculums 14 arranged in miter angle, two speculum 14 relevant positions are provided with the light path making light be transmitted to the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7, can be propagated light to by speculum 14 and be positioned at the first electro-optical imaging sensors 6 and the second electro-optical imaging sensors 7 beyond pcb board 10 and be embodied as picture, the thickness of pcb board 10 can be reduced like this.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (9)

1. the panoramic shooting helmet, comprise helmet body that is outer and internal layer formation, it is characterized in that: in helmet body, be provided with panorama camera device, this panorama camera device comprises control treatment module and optical axis is positioned at same straight line and symmetrical two fish eye lenses, and coordinates with two fish eye lenses and be fixed on two electro-optical imaging sensors of pcb board.

2. the panoramic shooting helmet according to claim 1, is characterized in that: be provided with a speculum arranged in miter angle in each fish-eye optical focal length position, the reflected light path of this speculum is identical with the light path that electro-optical imaging sensors receives.

3. the panoramic shooting helmet according to claim 1 and 2, is characterized in that: the FPC plate being provided with plurality of LEDs lamp between internal layer and skin, is provided with the printing opacity protruded laterally protruding at the skin of LED opposite position.

4. the panoramic shooting helmet according to claim 3, is characterized in that: described printing opacity projection be provided with latticed printing opacity grid.

5. the panoramic shooting helmet according to claim 3, is characterized in that: the light transmission medium being provided with coated LED in printing opacity projection.

6. the panoramic shooting helmet according to claim 5, is characterized in that: described light transmission medium comprises PC or silica gel.

7. the panoramic shooting helmet according to claim 4, is characterized in that: in printing opacity, projection is spherical crown shape or hemispherical to described printing opacity projection.

8. the panoramic shooting helmet according to claim 3, is characterized in that: be provided with closed ring rib outside described printing opacity projection, between this ring rib and printing opacity projection, form annular groove.

9. the panoramic shooting helmet according to claim 1, is characterized in that: outer field inner side is coated the coating merged with internal layer before interior formable layer.