CN107045190A - sample carrier module and portable microscope device - Google Patents

Abstract

The application is related to sample carrier module and Portable microscope device.A kind of Portable microscope device, it is used with image acquisition module collocation, including a sample carrier module, a light source module and a convex lens module.Sample carrier module includes a body and an adhesive assembly, and body has a thang-kng region and a sample sightingpiston.Adhesive assembly, which is removedly sticked, is located at body, and at least part covering thang-kng region, adhesive assembly is adjacent to sample observation face.Light source module activity is mounted on the side of body, and including a pedestal and a light source.Pedestal has a light hole, and sample carrier module activity is mounted on the side of light hole.Light source is located in pedestal.Convex lens module includes an at least convex lens, and its activity is mounted on the side of sample carrier module, and substantially focuses in sample observation face, corresponding with light source module.

Description

Sample carrier module and Portable microscope device

Technical field

Portable microscope device of the present invention, it is espespecially a kind of can be used with an intelligent communication device collocation it is portable aobvious Micro-mirror device.

Background technology

General conventional microscope is used for observing the fine structure of microorganism, cell or some materials, but in order to want energy Facilitate observation, it is necessary to which determinand to be first fabricated to the slice sample of easy printing opacity, then section is positioned on slide again, connect Liquid (being typically water) a small amount of in drop in section, finally the covered in section, can so complete one can For the sample of micro- sem observation.If preserving the sample made using the above method, come with greater need for other materials are recycled Made sample cladding is got up, sample can be made.

Based on the enthusiasm followed the truth to science, expectation can be miscellaneous biological, abiotic in environment of observation everywhere The fine structure and texture of sample (hair, fabric, freehand brushwork etc.), the design of portable microscopie unit are just arisen spontaneously, Such as " the Compact wide-field fluorescent imaging on a of U.S. Patent No. US20120157160 Mobile device ", TaiWan, China patent the M444520th " lightweight high power micro magnifier head ", Chinese Patent No. No. CN200920005757.4 " Multifunctional microscope device " etc., but only portable microscope equipment is e insufficient to significantly Lifting uses upper convenience, the very complicated as long as method for making sample remains unchanged, it is then not possible to which enjoying completely can be everywhere The benefit of observation.Therefore, it is in need to propose the sample carrier module that a kind of portable microscope equipment that arrange in pairs or groups is used, with up to The effect observed to everywhere.

The content of the invention

In view of above-mentioned problem, the purpose of the present invention uses to provide one kind portable microscope equipment that be able to can arrange in pairs or groups Sample carrier module.

In order to achieve the above object, sample carrier module and Portable microscope device of the invention, with an image capture mould Block collocation is used, including a sample carrier module, a light source module and a convex lens module.Sample carrier module includes one Body and an adhesive assembly, body have a thang-kng region and a sample sightingpiston.Adhesive assembly removedly sticks and is located at body, And at least part covers thang-kng region, adhesive assembly is adjacent to sample observation face.Light source module activity is mounted on the one of body Side, and including a pedestal and a light source.Pedestal has a light hole, and sample carrier module activity is mounted on the one of light hole Side.Light source is located in pedestal.Convex lens module includes an at least convex lens, and its activity is mounted on the side of sample carrier module, And substantially focus in sample observation face, it is corresponding with light source module.One detection sample get adhered in advance component be stained with it is glutinous after, then will Adhesive assembly is glutinous to be arranged on body, now by light source module along sample carrier module side group set to open light source, then Convex lens module is mounted on to the opposite side of sample carrier module again, the light that light source module is sent, which is passed through, enters convex after sample Lens module, operator is that can shoot real image formed by the sample behind in convex lens module with image acquisition module.

In one embodiment, adhesive assembly is a light-transmitting component.

In one embodiment, adhesive assembly is a paster.

In one embodiment, adhesive assembly is a light-transmitting component, sticks together face with a sample, and stick together Qu Jiyi with one It is non-to stick together area.

In one embodiment, adhesive assembly have one stick together area and one it is non-stick together area, stick together area including a transparent area and one Light tight area.

In one embodiment, adhesive assembly is a light-transmitting component, sticks together face with a sample, and stick together Qu Jiyi with one It is non-to stick together area, and stick together area there is a pattern of supplementary observation.

In one embodiment, sample carrier module further includes at least one first magnet assembly, located at the side of body.

In one embodiment, sample carrier module further includes at least one first magnet assembly, located at the side of body, magnetic It is connected to light source module, or convex lens module.

In one embodiment, light source module further includes one second magnet assembly, located at pedestal, and magnetic is connected to sample and held Carry module, or convex lens module.

In one embodiment, convex lens module further includes one the 3rd magnet assembly, and magnetic is connected to sample carrier module, or Light source module.

In one embodiment, sample carrier module further includes an at least slide, located at the side of body.

In one embodiment, sample carrier module further includes an at least slide, and located at the side of body, and adhesive assembly can Stick located at slide with removing.

In one embodiment, body has a convex portion, located at the side of body.

In one embodiment, pedestal has a limiting section, and sample carrier module activity is mounted on limiting section.

In one embodiment, Portable microscope device further includes one group of fixture, to fix convex lens module and image The relative position of acquisition module.

In one embodiment, image acquisition module is an intelligent mobile phone, a tablet PC, a notebook computer, one The image acquisition module of driving recorder, a camera or an automatic timer.

In one embodiment, Portable microscope device further includes one first polaroid and one second polaroid, relative to set On the optical path for being placed in sample carrier module both sides.

To make your juror have a clear understanding of effect after the purpose of the present invention, technical characteristic and its implementation, below Row explanation collocation diagram is illustrated, and please be referred to.

Brief description of the drawings

Figure 1A is the exploded perspective figure of an embodiment of portable microscope equipment of the invention.

Figure 1B is the three-dimensional quick-fried of the embodiment that one portable electronic devices of portable microscope equipment collocation of the invention are used Fried figure.

Fig. 1 C are the exploded perspective figure of another embodiment of portable microscope equipment of the invention.

The solid for another embodiment that Fig. 1 D use for one portable electronic devices of portable microscope equipment collocation of the invention Explosive view.

Fig. 2A is the stereogram of another embodiment of inventive samples carrier module.

Fig. 2 B are the one of Fig. 2A stereogram for changing aspect.

Fig. 2 C are the stereogram of Fig. 2A another change aspect.

Fig. 3 A to Fig. 3 E are other aspect schematic top plan views of adhesive assembly in Figure 1A.

Fig. 4 is the schematic diagram for the embodiment that inventive samples carrier module collocation conventional slide is used.

Embodiment

Hereinafter with reference to relevant drawings, illustrate a kind of optical observation apparatus according to present pre-ferred embodiments, wherein identical Component will be illustrated with identical reference marks.

Refer to the exploded perspective figure of Figure 1A and Figure 1B, Figure 1A for an embodiment of portable microscope equipment of the invention.Figure The exploded perspective figure for the embodiment that 1B uses for one portable electronic devices of portable microscope equipment collocation of the invention.It is portable The collocation of image acquisition module 61 of microscopie unit 1 and a portable electronic devices 60 is used.For example：Portable electronic devices 60 For an intelligent mobile phone, a tablet PC, a notebook computer, a driving recorder, a camera or an automatic timer.It can take Formula microscopie unit 1 includes a sample carrier module 10, a light source module 20 and a convex lens module 30.

Sample carrier module 10 includes a body 11 and an adhesive assembly 12, and body 11 can stick together group for carrier carrying Part 12 and detection sample S, in this so that body 11 is a sheet metal as an example, body 11 can also have a thang-kng region 111, a convex portion 112nd, a locating part 114 and a sample sightingpiston L.Adhesive assembly 12 can be a light-transmitting component, and its light transmittance is more than 90%.Stick together Component 12 can be paster, adhesive tape or resin, and face is sticked together with a sample, and it can be sticked in being stained with after glutinous detection sample S Sample is observed in the formation of body 11 one, i.e. adhesive assembly 12 is sticked on body 11 in the way of removedly.Adhesive assembly 12 to Few part covering thang-kng region 111, makes adhesive assembly 12 be adjacent to sample observation face L.In the present embodiment, 111, thang-kng region If the region that light can pass through, can have one opening or a transparent object, in this thang-kng region 111 using a light hole as Example.

The activity of light source module 20 is mounted on the side of the body 11 of sample carrier module 10, and including a pedestal 21, a light The switch of source 22 and one 23.It is in hollow form in pedestal 21, it is housed light source 22 and other interlock circuits.Pedestal 21 has One light hole 211 and limiting section 212, limiting section 212 are located at the homonymy of pedestal 21 with light hole 211.Light source 22 is coupled to out 23 are closed, its light sent can project pedestal 21 by light hole 211.Limiting section 212 has one group of groove C (such as Fig. 4 institutes Show), when the activity of sample carrier module 10 is mounted on limiting section 212, it is sticked in groove C, and now convex portion 112 can be corresponded to By compressing switch 23 so that light source 22, which is opened, to emit beam.In the present embodiment, the light that light source 22 is sent is visible ray. However, such as in other embodiments, the light that light source 22 is sent can also be non-visible light, infrared light light source, ultraviolet light Light source or Raman light source etc., if the photosensory assembly of image acquisition module 61 can correspond to carry out it is photosensitive.For example, when When light source 22 is ultraviolet source, Portable microscope device 1 just can be the fluorescence inspection of the counting applied to biological cell sample Survey device.Convex lens module 30 includes a convex lens 31, a microscope base 32, and convex lens 31 are embedded in microscope base 32.Convex lens module 30 Activity is mounted on the side of sample carrier module 10, and substantially focuses in sample observation face L, and corresponding with light source module 20 (as shown in Figure 1A), i.e. light source module 20 and convex lens module 30 both sides that to be mounted on sample carrier module 10 respectively different.Please Refering to 1B figures, in the present embodiment, Portable microscope device 1 further includes one group of fixture 33, and fixture 33 has one public time Part 331 is arranged on microscope base 32, and one female part 332 is correspondingly arranged on image acquisition module 61, in the present embodiment, public Secondary part 331 has the screw thread matched each other respectively with female part 332, is spirally connected each other, with reach fixed convex lens module 30a with Effect of the relative position of image acquisition module 61.But the present embodiment is not intended as the present invention only as example purposes of discussion Restrictive condition, for example, fixture 33 can also be adhesive agent, fixture, magnet, sucker, trip etc., in addition, such as Figure 1B Shown, fixture 33 can be also integrated in cell phone back cover or containment vessel.

Fig. 1 C are the exploded perspective figure of another embodiment of portable microscope equipment of the invention.As shown in Figure 1 C, body 11a Also can be a slide.In the present embodiment, operator, which only needs to be stained with to stick, has the adhesive assembly 12 for detecting sample S to be attached directly to carry On slide, then slide is sticked in the limiting section 212 of pedestal 212, that is, completes detection sample S setting.

The solid for another embodiment that Fig. 1 D use for one portable electronic devices of portable microscope equipment collocation of the invention Explosive view.As shown in figure iD, Portable microscope device 1 more may include one first polaroid 40 and one second polaroid 50, phase To being arranged on the optical path of the both sides of sample carrier module 10, to observe the detection sample S with birefringence, for example： The crystallization of starch or the compound eye of insect.First polaroid 40 and the second polaroid 50 can be linear polarizer plate, under predetermined condition, The polarization axis direction of first polaroid 40 and the second polaroid 50 is orthogonal.In addition, the first polaroid 40 and the second polaroid 50 also can be rotatory polarization piece or Elliptical rotatory polarization piece.

First polaroid 40 may be disposed on the optical path between detection sample S and image acquisition module 61, and second is inclined Mating plate 50 may be disposed on the optical path between detection sample S and light source module 20.In the present embodiment, the first polaroid 40 It is disposed between convex lens module 30 and image acquisition module 61, therefore the first polaroid 40 first can be installed in convex lens module It is fixed on image acquisition module 61 on 30 in the lump again, the first polaroid 40 can be also attached directly on image acquisition module 61. Second polaroid 50 is then arranged between sample carrier module 10 and light source module 20, for example：Second polaroid 50 can be installed in At light hole 211 or sample carrier module 10 is attached at close to the side of light hole 211.

When light source module 20 is opened, if the polarization axis direction of the first polaroid 40 and the second polaroid 50 is orthogonal, And sample carrier module 10 is when carrying the detection sample S without birefringence, user will be unable to see detection sample S's Imaging.When sample carrier module 10 carries the detection sample S with birefringence, the light that light source 22 is sent will be according to Sequence reaches image acquisition module 61 by the second polaroid 50, detection sample S, the polaroid 40 of convex lens module 30 and first, Operator is can be with the shot detection sample S of image acquisition module 61 imaging.Further, since the first polaroid 40 is fixed on image On acquisition module 61, operator, to change the polarization axle angle of the second polaroid 50, can make different polarization by rotation pedestal 21 The light of angle is by detecting sample S, and observable detects out of phase structure and kenel in sample S whereby, for example：In polarisation pattern Under, it is not required to via dyeing, you can the microstructure of clear view to starch crystals.

It is noted that " activity group is set " in the above-described embodiment is reached through the mode of magnetic-adsorption, i.e. sample Product carrier module 10, light source module 20 or at least one of convex lens module 30 include a magnet assembly.In a preferred embodiment, Sample carrier module 10 includes the first magnet assembly (not illustrating), and now light source module 20 may include the first magnet assembly of correspondence Second magnet assembly (not illustrating) is arranged at pedestal 21, also or pedestal 21 can be for made by magnetic conductive material；Convex lens module 30 is also It may include that the 3rd magnet assembly (not illustrating) of the first magnet assembly of correspondence is arranged at microscope base 32, also or microscope base 32 can be magnetic conduction material Made by matter.When the first magnet assembly is magnet, the second magnet assembly and/or the 3rd magnet assembly can be magnet or magnetic Metal；When the second magnet assembly is magnet, now the first magnet assembly can be magnet or magnetic metal, and the 3rd magnet assembly is Magnet；When the 3rd magnet assembly is magnet, now the first magnet assembly can be magnet or magnetic metal, and the second magnet assembly is Magnet.

From the above, when Portable microscope device 1 of the invention collocation portable electronic devices 60 are operated, convex lens mould Block 30 is fixed on portable electronic devices 60, and sample carrier module 10 is with light source module 20 respectively through locating part 114 and limit Position portion 212 is mutually fastened, and is set between convex lens module 30 and sample carrier module 10 through magnetic force movable group, and now sample is held Carry and relative will not be slided between module 10 and light source module 20, also will not between convex lens module 30 and portable electronic devices 60 It is relative to slide, it relative can then be slided between sample carrier module 10 and convex lens module 30, reach that movement is portable micro- whereby Effect of device 1 so that detection sample S can be correctly positioned in the camera lens visual field of portable electronic devices 60.

Fig. 2A to Fig. 2 C is referred to, Fig. 2A is the stereogram of another embodiment of inventive samples carrier module.Fig. 2 B are The stereogram of a Fig. 2A change aspect.Fig. 2 C are the stereogram of Fig. 2A another change aspect.In Fig. 2A to Fig. 2 C, sample Carrier module 10a, 10b or 10c composition are substantially similar to sample carrier module 10, and difference is sample carrier module 10a, 10b or 10c all separately include a light-transmitting component 113.Sample carrier module 10a, 10b or 10c and sample for convenience of explanation The difference of product carrier module 10, eliminates in Fig. 2A to Fig. 2 C and illustrates adhesive assembly 12, on saying for adhesive assembly 12 The bright paragraph that will be described hereafter face.As shown in Figure 2 A, in sample carrier module 10a, light-transmitting component 113, which is arranged at body 11, to be had There is the homonymy of convex portion 112.As shown in Figure 2 B, in sample carrier module 10b, light-transmitting component 113 is arranged at body 11 with convex Portion 112 tosses about.As shown in Figure 2 C, in sample carrier module 10c, light-transmitting component 113 is embodied directly in thang-kng region 111 In.Light-transmitting component 113 can be a slide, plastic sheet or resin sheet.It note that due to the property that light-transmitting component 113 has thang-kng Matter, in another embodiment, when in the case that ambient light is sufficient, light-transmitting component 113 can introduce component environment light so that Portable microscope device 1 can also be used in the case that light source 22 is not turned on, and now image acquisition module 61 still can be seen The sample observed, and observed picture can have the effect of details in a play not acted out on stage, but told through dialogues.

Fig. 3 A to Fig. 3 E are other aspect schematic top plan views of adhesive assembly.Refer to shown in Fig. 3 A to Fig. 3 C, stick together group Part 12 can be a light-transmitting component, and its light transmittance is more than 90%.Adhesive assembly 12 have one stick together area 121 with it is non-stick together area 122, stick Area 121 to be used for being stained with glutinous detection sample S, attach to again on light-transmitting component 113 thereafter, the diameter for sticking together area 121 is not more than 2.5 public affairs Point；Non- area 122 of sticking together takes the part of adhesive assembly 12 for user.In one embodiment, stick together area 121 and stick together area 122 with non- Between can have half break line of cut (easy tearing line) T, when user want preserve stick detection sample S when, Can be in adhesive assembly 12 being sticked in after conservation zone (for example, one pastes book or a slide), by non-area 122 of sticking together from sticking together group Part 12 is removed.Adhesive assembly 12 (can on the face of sticking together or non-stick together on face) in the region corresponding to area 121 is sticked together has auxiliary It can be the rule geometric pattern or intricate detail pattern formed by the mode printed to help a pattern P of observation, pattern P.When User is when using Portable microscope device 1, it may be desirable to which adjusting mobile example carrier module 10,10a, 10b or 10c makes inspection This S of test sample is fallen into the camera lens visual field of image acquisition module 61, but when user watches through Portable microscope device 1 When, the relative position between resolved detection sample S and the camera lens visual field of image acquisition module 61 is not easy to, now pattern P can To aid in the relative position that user is quickly found out between detection sample S and the camera lens visual field of image acquisition module 61, for example, In one embodiment, pattern P can be along located at the edge for sticking together area 121, as shown in Figure 3A, if user is in image acquisition module See pattern P in the 61 camera lens visual field, just may know that the camera lens visual field of current image acquisition module 61 is located at the side for sticking together area 121 Edge, user just knows will be toward opposite direction adjustment sample carrier module 10,10a, 10b or 10c；In another embodiment, pattern P Can be the pattern (for example, annular, M shape or cross) with directive property, as shown in Figure 3 B, pattern P is a cross figure Sample, positioned at the center for sticking together area 121, when user sees pattern P in the camera lens visual field of image acquisition module 61, Bian Huizhi The camera lens visual field of the current image acquisition module 61 in road has been directed at the center for sticking together area 121.In addition, when user is through portable micro- When lens device 1 is watched, it can want to know and observe the detection actual sizes of sample S, therefore in another embodiment, such as scheme Shown in 3C, pattern P is a chi mark, and such user just directly can learn detection sample in the camera lens visual field of image acquisition module 61 S size.

In addition, lightproof area also can be set in adhesive assembly 12, to form a details in a play not acted out on stage, but told through dialogues (dark field) paster.Such as Fig. 3 D institutes Show, sticking together area 121 includes a transparent area 124 and a light tight area 123.In Fig. 3 D implementation aspect, light tight area 123 is one Stain is printed, and may be disposed at any position for sticking together area 121, is not necessarily intended to be arranged at the center for sticking together area 121, as long as Detection sample S imaging background shows the effect of details in a play not acted out on stage, but told through dialogues.Light tight area 123 also can be by multiple scattered printing stain structures Into.Thus, it is only required in setting one or more scattered printing stains on the adhesive assembly 12 of script integral light-transmitting, to form screening Light region, only allows the light of refraction and scattering to be incident upon detection sample S, you can the effect of details in a play not acted out on stage, but told through dialogues to be reached, to lift resolution ratio as far as possible.

In another implementation aspect, as shown in FIGURE 3 E, sticking together area 121 includes a transparent area 126 and a light tight area 125, Light tight area 125 is presented with ring style.Transparent area 126 may be disposed at any position for sticking together area 121, not necessarily have to be located in glutinous The center in area 121, as long as detection sample S imaging background shows the effect of details in a play not acted out on stage, but told through dialogues.Thus, it is only required to overall in originally One ring-type lightproof area is set on the adhesive assembly 12 of printing opacity, you can allow adhesive assembly 12 to turn into a details in a play not acted out on stage, but told through dialogues paster.In addition, Fig. 3 D Also it may be used in combination with Fig. 3 E aspect.By the design method of details in a play not acted out on stage, but told through dialogues paster, pair between sample itself and background can be improved Than, and then obtain preferably imaging effect.

In another embodiment, sample carrier module 10 and light source module 20 conventional slide that can arrange in pairs or groups are used so that The portable microscope equipment 1 of the present invention is compatible in traditional slide specimen.Referring to Fig. 4, Fig. 4 is inventive samples carrier module The schematic diagram for the embodiment that collocation conventional slide is used.As shown in figure 4, conventional slide G is sticked in limiting section 212, When the activity of sample carrier module 10 is mounted on limiting section 212, it is sticked in groove C, now sample carrier module 10 can slightly Conventional slide G is pressed on, to avoid conventional slide G from being slided in limiting section 212.In the present embodiment, adhesive assembly 12 Also the conventional slide G that can arrange in pairs or groups is used, i.e. adhesive assembly 12 can directly stick located at conventional slide G to form the glass of observable Piece sample.

Only, as described above, is only the preferred embodiment of the present invention, is not limited to the model that the present invention is implemented Enclose；Equivalent changes and modifications that are any to be familiar with this those skilled in the art, being made in the case where not departing from spirit and scope of the invention, should all cover In in the scope of the claims of the present invention.

Claims (23)

1. a kind of sample carrier module, it is used with light source module collocation, including：

One body, with a thang-kng region and a sample sightingpiston；And

One adhesive assembly, removedly sticks and is located at the body, and at least partly covers the thang-kng region, so that described stick together Component is adjacent to the sample observation face.

2. sample carrier module as claimed in claim 1, wherein the adhesive assembly is a light-transmitting component.

3. sample carrier module as claimed in claim 2, wherein the adhesive assembly is a paster.

4. sample carrier module as claimed in claim 1, wherein there is the adhesive assembly sample to stick together face, and with one Stick together area and one non-stick together area.

5. sample carrier module as claimed in claim 4, wherein the area of sticking together has a pattern of supplementary observation.

6. sample carrier module as claimed in claim 4, wherein the area of sticking together includes a transparent area and a light tight area.

7. sample carrier module as claimed in claim 1, is further included：At least one first magnet assembly, located at the body Side.

8. sample carrier module as claimed in claim 1, is further included：One slide, located at the side of the body.

9. sample carrier module as claimed in claim 8, wherein the adhesive assembly, which is removedly sticked, is located at the slide.

10. sample carrier module as claimed in claim 1, wherein the body has a convex portion, located at the one of the body Side.

11. a kind of Portable microscope device, it is used with image acquisition module collocation, including：

There is one sample carrier module, including a body and an adhesive assembly, the body thang-kng region to be seen with a sample Examine face；The adhesive assembly removedly sticks and is located at the body, and at least partly covers the thang-kng region, makes described stick together Component is adjacent to the sample observation face；

One light source module, its activity is mounted on the side of the body, and including a pedestal and a light source, the pedestal has One light hole, the sample carrier module activity is mounted on the side of the light hole, and the light source is located in the pedestal；With And

One convex lens module, including an at least convex lens, the convex lens module are substantially focused in the sample observation face, and It is corresponding with the light source module, and activity is mounted on the side of the sample carrier module.

12. Portable microscope device as claimed in claim 11, wherein the adhesive assembly is a light-transmitting component.

13. Portable microscope device as claimed in claim 12, wherein the adhesive assembly is a paster.

14. Portable microscope device as claimed in claim 11, wherein there is the adhesive assembly sample to stick together face, and Area is sticked together with one and one non-sticks together area.

15. Portable microscope device as claimed in claim 14, wherein the area of sticking together has a pattern of supplementary observation.

16. Portable microscope device as claimed in claim 14, wherein described, to stick together area impermeable including a transparent area and one Light area.

17. Portable microscope device as claimed in claim 11, wherein the light source module further includes one second magnetic group Part, located at the pedestal, and magnetic is connected to the sample carrier module, or the convex lens module.

18. Portable microscope device as claimed in claim 11, wherein the convex lens module is further included：One the 3rd magnetic Component, and magnetic is connected to the sample carrier module, or the light source module.

19. Portable microscope device as claimed in claim 11, wherein the sample carrier module further includes at least 1 One magnet assembly, located at the side of the body, magnetic is connected to the light source module, or the convex lens module.

20. Portable microscope device as claimed in claim 11, wherein the pedestal has a limiting section, the sample is held Carry module activities and be mounted on the limiting section.

21. Portable microscope device as claimed in claim 11, is further included：One group of fixture, with the fixed convex lens Module and the relative position of the image acquisition module.

22. Portable microscope device as claimed in claim 21, wherein the image acquisition module be an intelligent mobile phone, One tablet PC, a notebook computer, a driving recorder, the image acquisition module of a camera or an automatic timer.

23. Portable microscope device as claimed in claim 11, is further included：

On one first polaroid and one second polaroid, the optical path for being relatively arranged on the sample carrier module both sides.