CN209086646U - A kind of portable microcosmic imaging device - Google Patents

Abstract

The utility model discloses a kind of portable microcosmic imaging devices, it is detachably connected to the portable imaging device (3) with camera (31) and luminaire (32), which includes camera lens (1) and mirror body (2)；The mirror body (2) is made of transparent or semitransparent solid material, and the thickness on length direction is uniform；The outer surface in the front (20b) of the mirror body (2) is partially provided with independent specular layer or diffusing reflection layer, the covering luminaire (32), the specular layer or diffusing reflection layer are made of light-proof material, and closed ring transparent ring is formed between outer periphery front (20b) of the mirror body (2)；Opening size of the mounting hole (21) of the mirror body (2) on the front (20b) of mirror body is greater than the size of the camera lens (1).Designed by the re-optimization of structure so that imaging device it is small and exquisite, it is light, conveniently, easy-to-use, image quality is high, enlargement ratio is big.

Description

A kind of portable microcosmic imaging device

Technical field

The utility model belongs to microcosmic imaging field, and in particular to a kind of portable microcosmic imaging device.

Background technique

Microscope can be observed microstructure.Conventional microscope is made of object lens and eyepiece, is used for microcosmic knot It is presented at the distance of distinct vision of human eye after structure amplification.Digit microscope using face battle array photodetector replaces human eye to be detected, Convenience can be brought for signal acquisition by image recording at digital image file.

Microscopical size is usually larger, most commonly seen in the form of the desk-top microscope of placement on the table.Miniaturization Portable digit microscope and solves the problems, such as microscopical portability with the matching used Cellscope of mobile phone, still There are still certain limitation, show as that external light source is needed to be illuminated, when illumination is combined with microscope ontology, It also needs to cause overall structure larger comprising battery.Although the first patent CN108681188A of applicant proposes certain Improvement project, but actually use and use discovery, using structures such as its guide light reflection end and camera lens mounting holes, when the camera of mobile phone When being closer with luminaire, be oriented to the illumination light at mounting hole by reflection end has part inevitably direct irradiation always Enter in camera lens and ratio is higher, rather than be reflected into camera lens through microscopic objects, causes imaging uneven, image quality needs to be mentioned It is high；In addition, the detachable mounting means of mirror body, is directed to the type etc. of the prominent cellphone body of camera lens, is further improved.

Utility model content

For at least one of prior art the above defects or improvement requirements, the utility model provides a kind of portable micro- See imaging device, designed by the re-optimization of structure so that imaging device it is small and exquisite, it is light, conveniently, easy-to-use, enlargement ratio is big, And it is adaptable for the portable equipment of different model, image quality further increases, removable particularly suitable as mobile phone etc. The enhancing image-forming module of electronic imaging device.

To achieve the above object, according to the one aspect of the utility model, a kind of portable microcosmic imaging device is provided, Be detachably connected to the portable imaging device with camera and luminaire, the portable microcosmic imaging device include camera lens and Mirror body, the camera lens are at least partially seated in the mounting hole of the mirror body；The camera lens includes lens, lens package；It is described Camera lens face is installed at the camera of the portable imaging device；

The mirror body is made of transparent or semitransparent solid material, and the thickness on length direction is uniform；The mirror body Positive outer surface be partially provided with independent specular layer or diffusing reflection layer, the covering luminaire, the mirror surface is anti- It penetrates layer or diffusing reflection layer is made of light-proof material, form closed ring light transmission between the positive outer periphery of the mirror body Circle；

The back side of the mirror body in a manner of pasting or adsorb with the mounting surface of the portable imaging device removably Connection, and one end far from the camera lens is provided with apolegamy part mounting groove, for removably extension installation apolegamy part；

Opening size of the mounting hole of the mirror body on the front of mirror body is greater than the size of the camera lens.

Preferably, the outside setting text and/or figure of the positive specular layer or diffusing reflection layer of the mirror body Pattern identification.

Preferably, the back side of the mirror body is provided with adhered layer, the outside of the adhered layer be used for it is described it is portable at As the repeatability of the mounting surface of equipment pastes connection, the adhered layer corresponds to and is provided with aperture at the mounting hole of the camera lens.

Preferably, the adhered layer is the annular around the camera lens, and correspondence offers annular on the back side of the mirror body The segment thickness of groove, the adhered layer is embedded in annular groove, and the inside of the adhered layer pastes and is connected to annular groove And/or inlay card is connected to annular groove, the adhered layer does not cover the luminaire of the portable imaging device in the mirror body The back side view field；

Alternatively, the adhered layer is strip, the back side of the mirror body, the stickup are connected on the inside of the adhered layer Layer covers the view field at the back side of the luminaire of the portable imaging device in the mirror body, and the adhered layer is using transparent Or trnaslucent materials is made.

Preferably, the back side of the mirror body is provided with sucker, and the outside of the sucker with the portable imaging for setting Standby mounting surface adsorbs connection, and the sucker corresponds to and is provided with aperture at the mounting hole of the camera lens.

Preferably, the sucker is the annular around the camera lens, and it is recessed to offer annular for correspondence on the back side of the mirror body The segment thickness of slot, the sucker is embedded in annular groove, and annular groove is connected on the inside of the sucker, and the sucker is not Cover view field of the luminaire at the back side of the mirror body of the portable imaging device；

Alternatively, the sucker is strip, the back side of the mirror body, the sucker covering are connected on the inside of the sucker The luminaire of the portable imaging device is in the view field at the back side of the mirror body, and the sucker is using transparent or semitransparent Material is made.

Preferably, the mounting hole of the mirror body includes a taper hole, and the minimum diameter of the taper hole is equal to the straight of the camera lens Diameter, the conical surface of the taper hole are transparent side or semi-transparent surface.

Preferably, the mounting hole of the mirror body includes a cylindrical bore, and the diameter of the cylindrical bore is greater than described The diameter of camera lens, the surface of the cylindrical bore are transparent side or semi-transparent surface.

Preferably, the apolegamy part is foot pad, and the mounting groove is foot pad mounting groove, and the segment thickness of the foot pad is embedded to In foot pad mounting groove, and the inside repeatability stickup of the foot pad is connected to annular groove and/or inlay card is connected to foot pad peace In tankage.

Preferably, the thickness t of the mirror body is greater than or equal to 3.5mm, while the front of mirror body to camera lens object space end face Operating distance w of the distance without departing from camera lens.

Above-mentioned preferred feature can be combined with each other as long as they do not conflict with each other.

In general, have the above technical solutions conceived by the present invention are compared with the prior art, with following Beneficial effect:

1, the portable microcosmic imaging device of the utility model, no setting is required itself arbitrary source pass through leading for construction mirror body Optical cavity body, the especially unique construction of mirror body head-on reflection layer and mounting hole, no setting is required end guide light reflection end can will just The light source of formula imaging device institute band is taken through reflection, refraction and scattering, illumination light is formed about in camera lens, to both meet illumination Demand, and the volume of imaging device is reduced, portability is realized, while avoiding the illumination light at mounting hole and being emitted directly toward mirror Head, imagewise uniform, image quality further increase.

2, after the portable microcosmic imaging device volume-diminished of the utility model, the focal length of camera lens is smaller, and enlargement ratio is bigger, It can be used for microspur imaging.

3, the portable microcosmic imaging device of the utility model, passes through what is constructed between mirror body head-on reflection layer and mirror body edge Closed ring transparent ring, guide-lighting intracavitary illumination light is appeared from transparent ring gap when in use, i.e., does not lose a large amount of illumination Light, but it is beautiful, lively fresh and alive using the aperture that luminaire is built imaging device product to be become clear, and has high-tech feeling, offsets The person of expense and onlooker's very attractive.

4, compared with traditional fixture, in the portable microcosmic imaging device of the utility model, the back side of mirror body to paste or The mode of absorption and the mounting surface of portable imaging device are detachably connected, pass through the adhered layer or sucking disk structure of kinds of schemes Design, the camera lens and luminaire for meeting the portable imaging device of different model and specification are adjusted the distance to be needed with the adaptability of position It asks, improves versatility and adaptability.

5, the portable microcosmic imaging device of the utility model additionally provides apolegamy part mounting groove, can extend installation apolegamy Part；When the camera of especially portable imaging device protrudes from the surface of portable imaging device, pass through the foot of installation apolegamy Pad, provides support between mirror body and portable imaging device, more stable after mirror body can be made to install on portable imaging device, Using more convenient.

6, the portable microcosmic imaging device of the utility model, is tested by groping repeatedly, is proposed to mirror body thickness and mirror The concrete restriction of head installation site, can make guide-lighting and imaging effect be maintained at optimum state.

Detailed description of the invention

Fig. 1 is the schematic elevation view of the portable microcosmic imaging device of the utility model；

Fig. 2 is the schematic cross-sectional view of the portable microcosmic imaging device of the utility model；

Fig. 3 be the utility model portable microcosmic imaging device and portable imaging device with the use of schematic diagram；

Fig. 4 is a kind of embodiment schematic diagram of the mounting hole of the portable microcosmic imaging device of the utility model；

Fig. 5 is another embodiment schematic diagram of the mounting hole of the portable microcosmic imaging device of the utility model；

Fig. 6 is the geometric dimension parameter schematic diagram of the portable microcosmic imaging device of the utility model；

Fig. 7 is that the portable microcosmic imaging device of the utility model and a kind of connection type of portable imaging device are illustrated Figure；

Fig. 8 is that the portable microcosmic imaging device of the utility model and another connection type of portable imaging device are illustrated Figure.

Fig. 9 is the apolegamy part schematic elevation view of the portable microcosmic imaging device of the utility model；

Figure 10 is the apolegamy part schematic side view of the portable microcosmic imaging device of the utility model.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.In addition, institute in the various embodiments of the present invention described below The technical characteristic being related to can be combined with each other as long as they do not conflict with each other.With reference to embodiment to this Utility model is further described.

As shown in Figure 1-3, the portable microcosmic imaging device of one kind of the utility model, being detachably connected to has camera shooting First 31 and luminaire 32 portable imaging device 3, which is, for example, mobile phone, plate etc., has camera shooting First 31 and luminaire 32, luminaire 32 is, for example, flash lamp, light compensating lamp etc..

The portable microcosmic imaging device includes camera lens 1 and mirror body 2, and the camera lens 1 is at least partially seated at the mirror body 2 In mounting hole 21；The camera lens 1 includes lens, lens package；Lens in camera lens 1 are by spherical lens or non-spherical lens group At, can be single element lens be also possible to multi-disc composition lens group.It preferably, include non-spherical lens in camera lens 1, and by multi-disc Lens form lens group.The lens package is that camera lens 1 provides mechanical encapsulation structure.As shown in figure 3,1 face of the camera lens peace At camera 31 loaded on the portable imaging device 3.

As shown in Figure 1-3, the mirror body 2 is made of transparent or semitransparent solid material, the thickness on length direction Uniformly；Mirror body 2 plays the role of mechanical structure and light guide simultaneously.The light guide function of mirror body 2 refers to will be on portable imaging device 3 Luminaire 32 (such as flash lamp) issue light imported on the object that camera lens 1 to be imaged.The positive 20b's of the mirror body 2 Outer surface is partially provided with independent specular layer or diffusing reflection layer, the covering luminaire 32, the specular layer or Diffusing reflection layer is made of light-proof material, and closed ring transparent ring is formed between the positive outer periphery 20b of the mirror body 2. The specular layer of the positive 20b of the mirror body 2 or the outside setting text and/or pattern identification of diffusing reflection layer.This reality With novel portable microcosmic imaging device, pass through the closed ring light transmission constructed between mirror body head-on reflection layer and mirror body edge Circle, guide-lighting intracavitary illumination light is appeared from transparent ring gap when in use, i.e., does not lose a large amount of illumination light, and utilize illumination It is beautiful, lively fresh and alive that the aperture that device is built makes imaging device product become clear, and has high-tech feeling, to consumer and onlooker pole It is attractive.

As illustrated in figures 4-5, opening size of the mounting hole 21 of the mirror body 2 on the positive 20b of mirror body is greater than the mirror First 1 size.

As shown in figure 4, the mounting hole 21 of the mirror body 2 includes a taper hole 211, the minimum diameter of the taper hole 211 is equal to The diameter of the camera lens 1, the conical surface of the taper hole 211 are transparent side or semi-transparent surface.

Or as shown in figure 5, the mounting hole 21 of the mirror body 2 includes a cylindrical bore 212, the cylindrical bore 212 diameter is greater than the diameter of the camera lens 1, and the surface of the cylindrical bore 212 is transparent side or semi-transparent surface.

As shown in fig. 6, to provide the illumination of homogeneous and bright, the thickness t (thickness of front and back sides normal direction) of the mirror body 2 More than or equal to 3.5mm, while the distance of the positive 20b of mirror body to camera lens object space end face 10b is without departing from the operating distance of camera lens 1 W, the region that the operating distance of the camera lens refers to that camera lens cooperates the portable imaging device to be capable of blur-free imaging when working are arrived The distance of camera lens object space end face 10b.The portable microcosmic imaging device of the utility model, is tested by groping repeatedly, is proposed pair The concrete restriction of mirror body thickness and camera lens installation site can make guide-lighting and imaging effect be maintained at optimum state.

As Figure 7-8, the back side 20a of the mirror body 2 in a manner of pasting or adsorb with the portable imaging device 3 Mounting surface it is detachably connected, and far from the camera lens 1 one end be provided with apolegamy part mounting groove, for removably expanding Exhibition installation apolegamy part.

As shown in fig. 7, the back side 20a of the mirror body 2 is provided with adhered layer 41, the outside of the adhered layer 41 is used for and institute The repeatability for stating the mounting surface of portable imaging device 3 pastes connection, the mounting hole 21 of the corresponding camera lens 1 of the adhered layer 41 Place is provided with aperture.

As shown in fig. 7, the adhered layer 41 is the annular around the camera lens 1, corresponded on the back side 20a of the mirror body 2 Annular groove is offered, the segment thickness of the adhered layer 41 is embedded in annular groove, and the inside of the adhered layer 41 is pasted It is connected to annular groove and/or inlay card is connected to annular groove, the adhered layer 41 does not cover the portable imaging device 3 View field of the luminaire 32 in the back side 20a of the mirror body.

Or as shown in figure 8, the adhered layer 41 is strip, the inside of the adhered layer 41 is connected to the mirror body Back side 20a, the adhered layer 41 cover the luminaire 32 of the portable imaging device 3 in the throwing of the back side 20a of the mirror body Shadow zone domain, the adhered layer 41 are made of transparent or semitransparent material.

The back side 20a of the mirror body 2 is provided with sucker (not shown), the outside of the sucker be used for it is described it is portable at As the mounting surface of equipment 3 adsorbs connection, the sucker corresponds to and is provided with aperture at the mounting hole 21 of the camera lens 1.

The sucker is the annular around the camera lens 1, and correspondence offers annular groove on the back side 20a of the mirror body 2, In the segment thickness embedment annular groove of the sucker, and annular groove is connected on the inside of the sucker, the sucker does not cover The luminaire 32 of the portable imaging device 3 is covered in the view field of the back side 20a of the mirror body；

Alternatively, the sucker is strip, the back side 20a of the mirror body, the sucker are connected on the inside of the sucker The luminaire 32 of the portable imaging device 3 is covered in the view field of the back side 20a of the mirror body, the sucker is using saturating Bright or trnaslucent materials is made.

The mirror body can also be connect by method of clamping with the portable imaging device.Clamping clamp can be folder Son, or mobile phone shell, the purpose is to fix with portable imaging device, the fixture can be fixed with mirror body for permanent type Connection, is also possible to detachable.The fixture and when being fixed as detachable of mirror body, the fixture and mirror body pass through card It detains, be threadedly engaged, the modes such as magnet are fixed.

Compared with traditional fixture, in the portable microcosmic imaging device of the utility model, the back side of mirror body is to paste or inhale The mounting surface of attached mode and portable imaging device is detachably connected, is set by the adhered layer or sucking disk structure of kinds of schemes Meter, the camera lens and luminaire for meeting the portable imaging device of different model and specification are adjusted the distance to be needed with the adaptability of position It asks, improves versatility and adaptability.

As shown in figs. 9-10, the apolegamy part is foot pad 5, and the mounting groove is foot pad mounting groove, the part of the foot pad 5 Thickness is embedded in foot pad mounting groove, and the inside repeatability stickup of the foot pad 5 is connected to annular groove and/or inlay card connection In foot pad mounting groove.Preferably, the foot pad is the flexible resilient material of similar silica gel.The utility model it is portable it is microcosmic at As device, apolegamy part mounting groove is additionally provided, installation apolegamy part can be extended；The especially camera shooting head process of portable imaging device For portable imaging device surface when, by installation apolegamy foot pad, provided between mirror body and portable imaging device Support, because mounting surface only contacts near camera lens with portable imaging device at this time, and the other positions of mounting surface are outstanding Sky, and it is more stable after mirror body being made to install on portable imaging device using foot pad, using more convenient.

The portable microcosmic imaging device of one kind of the utility model, is designed by the re-optimization of structure, so that imaging device It is small and exquisite, light, conveniently, easy-to-use, enlargement ratio is big, and adaptable for the portable equipment of different model, image quality is into one Step improves, the enhancing image-forming module particularly suitable as the movable electronics imaging device such as mobile phone.

The portable microcosmic imaging device of the utility model, no setting is required itself arbitrary source pass through the leaded light of construction mirror body Cavity, the especially unique construction of mirror body head-on reflection layer and mounting hole, no setting is required end guide light reflection end can will be portable The light source of formula imaging device institute band is formed about illumination light in camera lens through reflection, refraction and scattering, so that both meeting illumination needs It asks, and reduces the volume of imaging device, realize portability, while avoiding the illumination light at mounting hole and being emitted directly toward mirror Head, imagewise uniform, image quality further increase.

After the portable microcosmic imaging device volume-diminished of the utility model, the focal length of camera lens is smaller, and enlargement ratio is bigger, can It is imaged for microspur.

As it will be easily appreciated by one skilled in the art that the above is only the preferred embodiment of the utility model only, not To limit the utility model, any modification made within the spirit and principle of the present invention, equivalent replacement and change Into etc., it should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of portable microcosmic imaging device, it is detachably connected to portable with camera (31) and luminaire (32) Imaging device (3), the portable microcosmic imaging device include camera lens (1) and mirror body (2), and the camera lens (1) is at least partially seated at In the mounting hole (21) of the mirror body (2)；The camera lens (1) includes lens, lens package；Camera lens (1) face is installed on At the camera (31) of the portable imaging device (3)；

It is characterized by: the mirror body (2) is made of transparent or semitransparent solid material, the thickness on length direction is equal It is even；The outer surface in the front (20b) of the mirror body (2) is partially provided with independent specular layer or diffusing reflection layer, covering institute It states luminaire (32), the specular layer or diffusing reflection layer are made of light-proof material, the front with the mirror body (2) Closed ring transparent ring is formed between the outer periphery (20b)；

It the back side (20a) of the mirror body (2) can with the mounting surface of the portable imaging device (3) in a manner of pasting or adsorb It releasably connects, and one end far from the camera lens (1) is provided with apolegamy part mounting groove, for removably extension installation choosing Accessory；

Opening size of the mounting hole (21) of the mirror body (2) on the front (20b) of mirror body is greater than the ruler of the camera lens (1) It is very little.

2. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The specular layer in the front (20b) of the mirror body (2) or the outside setting text and/or pattern mark of diffusing reflection layer Know.

3. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The back side (20a) of the mirror body (2) is provided with adhered layer (41), the outside of the adhered layer (41) be used for it is described portable The repeatability of the mounting surface of formula imaging device (3) pastes connection, the mounting hole of the corresponding camera lens (1) of the adhered layer (41) (21) aperture is provided at.

4. portable microcosmic imaging device as claimed in claim 3, it is characterised in that:

The adhered layer (41) is the annular around the camera lens (1), and correspondence offers on the back side (20a) of the mirror body (2) The segment thickness of annular groove, the adhered layer (41) is embedded in annular groove, and the inside of the adhered layer (41) is pasted and connected It is connected to annular groove and/or inlay card is connected to annular groove, the adhered layer (41) does not cover the portable imaging device (3) Luminaire (32) the back side (20a) of the mirror body view field；

Alternatively, the adhered layer (41) is strip, the back side of the mirror body is connected on the inside of the adhered layer (41) (20a), the adhered layer (41) cover the luminaire (32) of the portable imaging device (3) at the back side of the mirror body The view field of (20a), the adhered layer (41) are made of transparent or semitransparent material.

5. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The back side (20a) of the mirror body (2) is provided with sucker, and the outside of the sucker is used for and the portable imaging device (3) mounting surface adsorbs connection, and the sucker corresponds to and is provided with aperture at the mounting hole (21) of the camera lens (1).

6. portable microcosmic imaging device as claimed in claim 5, it is characterised in that:

The sucker is the annular around the camera lens (1), and it is recessed to offer annular for correspondence on the back side (20a) of the mirror body (2) The segment thickness of slot, the sucker is embedded in annular groove, and annular groove is connected on the inside of the sucker, and the sucker is not Cover view field of the luminaire (32) at the back side (20a) of the mirror body of the portable imaging device (3)；

Alternatively, the sucker is strip, the back side (20a) of the mirror body is connected on the inside of the sucker, the sucker covers View field of the luminaire (32) at the back side (20a) of the mirror body of the portable imaging device (3) is covered, the sucker is adopted It is made of transparent or semitransparent material.

7. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The mounting hole (21) of the mirror body (2) includes a taper hole (211), and the minimum diameter of the taper hole (211) is equal to the mirror The diameter of head (1), the conical surface of the taper hole (211) are transparent side or semi-transparent surface.

8. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The mounting hole (21) of the mirror body (2) includes a cylindrical bore (212), and the diameter of the cylindrical bore (212) is big Diameter in the camera lens (1), the surface of the cylindrical bore (212) are transparent side or semi-transparent surface.

9. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The apolegamy part is foot pad (5), and the mounting groove is foot pad mounting groove, and the segment thickness of the foot pad (5) is embedded to foot pad In mounting groove, and the inside repeatability stickup of the foot pad (5) is connected to annular groove and/or inlay card is connected to foot pad installation In slot.

10. portable microcosmic imaging device as described in claim 1, it is characterised in that:

The thickness t of the mirror body (2) is greater than or equal to 3.5mm, while camera lens object space end face (10b) is arrived in the front (20b) of mirror body Distance without departing from camera lens (1) operating distance w.