CN209514197U - Integrate the microscope of biology, entity, fluorescence and metallographic function - Google Patents

Abstract

The utility model belongs to microscopical technical field more particularly to a kind of microscope for integrating biology, entity, fluorescence and metallographic function.The microscope, light source group includes back light source, side light source, metallographic light path tube, fluorescence light path tube, main optical path cylinder and light path switching component, when metallographic light path tube and main optical path cylinder are correspondingly arranged, the microscope has the function of metallographic microscope, when fluorescence light path tube and main optical path cylinder are correspondingly arranged, the microscope has the function of fluorescence microscope, and when metallographic light path tube and fluorescence light path tube are not correspondingly arranged with main optical path cylinder and open back light source, which can do biomicroscope use.When metallographic light path tube and fluorescence light path tube are not correspondingly arranged with main optical path cylinder and open side light source, which can do stereomicroscope use.The microscope so that there are four types of different functions for microscope tool, and can be switched over by setting various light sources and light path switching component between different functions.

Description

Integrate the microscope of biology, entity, fluorescence and metallographic function

Technical field

The utility model belongs to microscopical technical field more particularly to a kind of collection biology, entity, fluorescence and metallographic function The microscope being integrated.

Background technique

Microscope is used as a kind of scientific research apparatus mainly for professional.With the progress and development of science, gradually go out A variety of dedicated microscope types, such as biomicroscope, stereomicroscope, metallographic microscope and fluorescence microscope are showed.This A little types only have a kind of function mostly, although the powerful in professional domain, has a single function, structure is complicated, and volume is huge Greatly, expensive.

Nowadays, because of manufacturing development, microscopical production cost has been had declined very much, the income level of people Gao Liao, microscope, which has begun, enters family as other household electrical appliance.In school, it is also a kind of science popularization instrument and teaching Tool.As science popularization instrument or household electrical appliance, professional microscopic can be it is superfluous, user is it is desirable that a function is neat Entirely, easy to use, small volume, the microscope of price material benefit.However existing microscope functions are more single, in order to realize difference Function, need to buy more instruments, the utilization rate of separate unit instrument is not high, causes overlapping investment, the wasting of resources.

Utility model content

The technical problem to be solved by the utility model is to it is single for existing microscope functions, in order to realize difference Function need to buy the technological deficiency of the wasting of resources caused by more instruments, a kind of collection biology, entity, fluorescence and metallographic are provided The microscope that function is integrated.

In order to solve the above technical problems, the utility model embodiment provides a kind of microscope of function four-in-one, including aobvious Micro mirror main body and light source group, the light source group are connected on the microscope body, and the light source group includes back light source, sidelight Source, metallographic light path tube, fluorescence light path tube, main optical path cylinder and light path switching component are formed with objective table on the microscope body, Light hole is formed on the objective table, the light hole is located on the axis of the main optical path cylinder；

The back light source is arranged in the lower section of the objective table and is arranged with the light hole face, the metallographic optical path Cylinder, the fluorescence light path tube and the side light source are respectively positioned on the top of the objective table, the side light source and the main optical path cylinder Axis be arranged in angle and light that the side light source issues is towards the light hole, the light path switching component is for adjusting The position of the metallographic light path tube and the fluorescence light path tube, so that the metallographic light path tube and the fluorescence light path tube are at most One is correspondingly arranged with the main optical path cylinder.

Optionally, the microscope further includes the objective lens being detachably connected with the microscope body, the objective lens Including entity object lens and high power objective, the entity object lens and the side light source cooperate, the high power objective and the back light source Cooperation.

Optionally, the metallographic light path tube includes first support, second support, first light source, the first lens group and light splitting Piece, the first support are connect with the second support, and the first light source and first lens group are arranged described first In bracket, the light splitting piece is arranged in the second support, and the light that the first light source issues can be through described first thoroughly Microscope group and the light splitting piece reach the objective table.

Optionally, the first light source is LED light source.

Optionally, the fluorescence light path tube includes third bracket, the 4th bracket, second light source, the second lens group and color separation Mirror, the third bracket are connect with the 4th bracket, and the second light source and second lens group are arranged in the third In bracket, the dichronic mirror is arranged in the 4th bracket, and the light that the second light source issues can pass through described second Lens group and the dichronic mirror reach the objective table.

Optionally, the second light source is LED light source.

Optionally, the fluorescence light path tube further includes the first optical filter and the second optical filter, first optical filter and institute It states the second optical filter to be arranged in the 4th bracket, first optical filter is arranged in second lens group and described point Between Look mirror, the side that the dichronic mirror deviates from the objective table is arranged in second optical filter.

Optionally, the light path switching component includes driving mechanism and connecting plate, and the connecting plate is used for and microscope master Body connection, the metallographic light path tube and the fluorescence light path tube are flexibly connected with the connecting plate, and the driving mechanism is used for The metallographic light path tube and the fluorescence light path tube is driven to move relative to the connecting plate.

Optionally, the driving mechanism includes the first push rod and the second push rod, first push rod and the metallographic optical path Cylinder connection, second push rod are connect with the fluorescence light path tube, and guide rail, the fluorescence light path tube are formed on the connecting plate And the metallographic light path tube is slidably connected with the guide rail, first push rod is able to drive the metallographic light path tube described in Guide rail sliding, second push rod are able to drive the fluorescence light path tube and slide along the guide rail.

Optionally, the connecting plate includes the first plate and the second plate and third plate that are oppositely arranged on first plate, The guide rail includes that first plate and first sliding groove on the second plate is arranged in and is arranged in first plate and the third Second sliding slot between plate is provided with through-hole on the connecting plate, and the through-hole is located on the axis of the main optical path cylinder.

Implement the utility model embodiment, will have the following beneficial effects:

The microscope of the utility model embodiment, light source group include back light source, side light source, metallographic light path tube, fluorescence light path Cylinder and light path switching component, when metallographic light path tube is correspondingly arranged with main optical path cylinder, which has the function of metallographic microscope Can, when fluorescence light path tube is correspondingly arranged with main optical path cylinder, which has the function of fluorescence microscope, when metallographic light path tube And fluorescence light path tube, when not being correspondingly arranged with main optical path cylinder and opening back light source, which, which can make biomicroscope, makes With.When metallographic light path tube and fluorescence light path tube are not correspondingly arranged with main optical path cylinder and open side light source, which can be done Stereomicroscope uses.The microscope is by setting various light sources and light path switching component, so that there are four types of microscope tools Different functions, and free switching can be carried out between different functions, and then it is single to overcome existing microscope functions Technological deficiency.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is microscopical right view provided by the utility model；

Fig. 2 is the axonometric drawing of microscope provided by the utility model (removing microscope shell)；

Fig. 3 be microscope shown in FIG. 1 as stereomicroscope or biomicroscope when its light path switching component signal Figure；

Fig. 4 be microscope shown in FIG. 1 as metallographic microscope when its light path switching component schematic diagram；

Fig. 5 is the opticpath figure of its metallographic light path tube of microscope shown in Fig. 4；

Fig. 6 be microscope shown in FIG. 1 as fluorescence microscope when its light path switching component schematic diagram；

Fig. 7 is the opticpath figure of its fluorescence light path tube of microscope shown in fig. 6；

Fig. 8 is the side view of microscopical light path switching component shown in FIG. 1.

Appended drawing reference in specification is as follows:

1, microscope body；11, objective table；111, light hole；12, microscope stand；13, microscope shell；2, light source Group；21, back light source；22, side light source；23, metallographic light path tube；231, first support；232, second support；233, first light source； 234, the first lens group；235, light splitting piece；24, fluorescence light path tube；241, third bracket；242, the 4th bracket；243, the second light Source；244, the second lens group；245, dichronic mirror；246, the first optical filter；247, the second optical filter；

25, light path switching component；251, the first push rod；252, the second push rod；26, connecting plate；261, the first plate；2611, Groove；262, the second plate；2621, the first inclined-plane；263, third plate；2631, the second inclined-plane；264, through-hole；27, main optical path cylinder；

3, object lens；

4, image-forming assembly；

10, object to be seen.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figures 1 and 2, it is one that the utility model embodiment, which provides a kind of collection biology, entity, fluorescence and metallographic function, The microscope of body, including microscope body 1 and light source group 2, light source group 2 are connected on microscope body 1, and light source group 2 includes bottom Light source 21, side light source 22, metallographic light path tube 23, fluorescence light path tube 24, main optical path cylinder 27 and light path switching component 25, microscope master Main optical path cylinder 27 is formed with objective table 11 on body 1, and light hole 111 is formed on objective table 11, and light hole 111 is located at main optical path cylinder On 27 axis, and the axis of light hole 111 is overlapped with the axis of main optical path cylinder 27.Back light source 21 is arranged under objective table 11 Just and with 111 face of light hole it is arranged, metallographic light path tube 23, fluorescence light path tube 24 and side light source 22 are respectively positioned on the upper of objective table 11 The light that the axis of side, side light source 22 and main optical path cylinder 27 is arranged in angle and side light source 22 issues is towards light hole 111, optical path Changeover module 25 is used to adjust the position of metallographic light path tube 23 and fluorescence light path tube 24, so that metallographic light path tube 23 and fluorescence light path At most one of cylinder 24 is correspondingly arranged with main optical path cylinder 27.Metallographic light path tube 23 as described herein is correspondingly arranged with main optical path cylinder 27 Refer to: the light that metallographic light path tube 23 issues can reach the object to be seen 10 on objective table 11；Similarly, fluorescence light path tube 24 are correspondingly arranged with main optical path cylinder 27 and refer to, the light that fluorescence light path tube 24 issues can reach the object to be seen on objective table 11 Body 10.

The microscope of the embodiment, when metallographic light path tube 23 is correspondingly arranged with main optical path cylinder 27, which has gold The function of phase microscope, when fluorescence light path tube 24 is correspondingly arranged with main optical path cylinder 27, which has fluorescence microscope Function, when metallographic light path tube 23 and fluorescence light path tube 24 are correspondingly arranged with main optical path cylinder 27 and open back light source 21, this is aobvious Micro mirror can do biomicroscope use, when metallographic light path tube 23 and fluorescence light path tube 24 are not correspondingly arranged with main optical path cylinder 27 And when opening side light source 22, which can do stereomicroscope use.The microscope passes through setting various light sources and light Road changeover module 25 so that there are four types of different functions for microscope tool, and can carry out freely cutting between different functions It changes, and then overcomes the single technological deficiency of existing microscope functions.

Specifically, microscope further includes the objective lens being detachably connected with microscope body 1, and objective lens include entity object lens And high power objective, entity object lens and side light source 22 cooperate, high power objective and back light source 21 cooperate.Entity object lens are low power objective, Entity object lens and high power objective are detachably connected on Nosepiece, and Nosepiece can be revolved relative to main optical path cylinder 27 Turn.When opening back light source 21, closing side light source 22, rotation Nosepiece cooperates high power objective and back light source 21, that is, bottom The light that light source 21 issues amplifies through the sample or other objects on objective table 11 by the multistage of high power objective, at As component 4, to realize the function of biomicroscope.When closing back light source 21, opening side light source 22, what side light source 22 issued Light is irradiated on object 10 to be seen, and the light reflected is amplified into image-forming assembly 4 through entity object lens, thus real The real microscopical function of body.

Image-forming assembly 4 in the present embodiment is eyepiece either CCD camera (charge coupled device, charge coupling Clutch part) etc. other digital image-forming components, digital image-forming component convert optical signals into digital signal, shown by display screen Out.

As depicted in figs. 3 and 5, metallographic light path tube 23 includes first support 231, second support 232, first light source 233, the One lens group 234 and light splitting piece 235, first support 231 are connect with second support 232, first light source 233 and the first lens group 234 are arranged in first support 231, and light splitting piece 235 is arranged in second support 232, and the light that first light source 233 issues can Objective table 11 is reached through the first lens group 234 and light splitting piece 235, after the reflection of the object to be seen 10 on objective table 11 again It reaches on light splitting piece 235, is imaged through light splitting piece 235, and enter image-forming assembly 4.In this way, microscope can be used as metallography microscope Mirror uses.For ease of description, the path of light is expressed as with the dotted line in Fig. 5 and Fig. 7.

Wherein first light source 233 is LED light source, and instead of the halogen bulb in original metallographic microscope, structure is obtained Simplify, cooling requirements are low, and power consumption is low.

Similarly, as shown in Fig. 4, Fig. 6 and Fig. 7, fluorescence light path tube 24 includes third bracket 241, the 4th bracket 242, the Two light sources 243, the second lens group 244 and dichronic mirror 245, third bracket 241 are connect with the 4th bracket 242, second light source 243 and Second lens group 244 is arranged in third bracket 241, and dichronic mirror 245 is arranged in the 4th bracket 242, and second light source 243 issues Light can reach objective table 11 by the second lens group 244 and dichronic mirror 245, through the object to be seen 10 on objective table 11 Reflection after arrive again on dichronic mirror 245, through dichronic mirror 245 be imaged, and enter image-forming assembly 4.Make this micro- in this way Mirror can be used as fluorescence microscope.Wherein, second light source 243 is LED light source, and the light that second light source 243 issues is The light of specific wavelength, so as to avoid high-pressure sodium lamp is used, which does not need to preheat, and does not need using transformer yet, It can be used directly, it is succinct convenient, simplify entire microscope.

Preferably, fluorescence light path tube 24 further includes the first optical filter 246 and the second optical filter 247, the first optical filter 246 and Second optical filter 247 is arranged in the 4th bracket 242, and the first optical filter 246 is arranged in the second lens group 244 and dichronic mirror Between 245, the side that dichronic mirror 245 deviates from objective table 11 is arranged in the second optical filter 247.First optical filter 246 can be into one The light for walking the specific wavelength issued to second light source 243 is filtered, so that the light ratio being irradiated on dichronic mirror 245 It is purer, without the interference of the light of other wavelength, be conducive to improve imaging effect.Second optical filter 247 can filter ultraviolet Line or other interference light avoid ultraviolet light from directly entering human eye, and then protect human eye in this way when image-forming assembly 4 is eyepiece.Treat as When picture component 4 is CCD camera, the setting of the second optical filter 247 can improve imaging effect.

As shown in Fig. 3, Fig. 4 and Fig. 8, light path switching component 25 includes driving mechanism and connecting plate 26, and connecting plate 26 is used for It is connect with microscope body 1, metallographic light path tube 23 and fluorescence light path tube 24 are flexibly connected with connecting plate 26, and driving mechanism is used for Metallographic light path tube 23 and fluorescence light path tube 24 is driven to move relative to connecting plate 26, so that metallographic light path tube 23 and fluorescence light path tube At most one of 24 is correspondingly arranged with main optical path cylinder 27.Through-hole 264, the axis and key light of through-hole 264 are formed on connecting plate 26 The axis of road cylinder 27 is consistent, passes through one of them and main optical path of driving mechanism driving metallographic light path tube 23 and fluorescence light path tube 24 Cylinder 27 is correspondingly arranged, so that having other optical paths to enter on the path that object lens 3 reach image-forming assembly 4, so that having The microscope of the light path switching component 25 can have multiple functions, and light path switching component 25 allows metallographic light path tube 23 and fluorescence Light path tube 24 exists simultaneously, therefore does not need to dismantle microscopical shell and the switching of different function can be completed, time saving and energy saving.Even The setting of through-hole 264 allows the light across object lens 3 that can reach image-forming assembly 4 on fishplate bar 26.

Object lens 3 in the present embodiment refer to object lens when microscope uses right above object 10 to be seen.

As shown in figure 8, connecting plate 26 includes the first plate 261, the second plate 262 and third plate 263, through-hole 264 is formed in the On one plate 261, the second plate 262 and third plate 263 are oppositely arranged on the both ends of the first plate 261, the first plate 261 and the second plate 262 Between be formed with first sliding groove, be formed with second sliding slot between the first plate 261 and third plate 263, second support 232 and the 4th Frame 242 is slidably arranged in first sliding groove and second sliding slot.

However, in other embodiments, first support 231 and third bracket 241 can also omit, it is directly metallographic optical path Cylinder 23 and fluorescence light path tube 24 are slidably arranged in first sliding groove and second sliding slot.

Specifically, the first inclined-plane 2621 is formed on the second plate 262, the first inclined-plane 2621 is by the second plate 262 close to third One side surface of plate 263 extends to far from third plate 263 and close to the direction of the first plate 261, the first inclined-plane 2621 and the first plate 261 form first sliding groove towards a side surface of the second plate 262.Similarly, the second inclined-plane 2631 is formed on third plate 263, Second inclined-plane 2631 from third plate 263 close to a side surface of the second plate 262 to far from the second plate 262 and close to the first plate 261 Direction extend, the second inclined-plane 2631 and the first plate 261 are towards a side surface of the second plate 262 formation second sliding slot.First is sliding Slot and second sliding slot are oppositely arranged to form guide rail, and metallographic light path tube 23 and fluorescence light path tube 24 are slidably connected with guide rail.

As shown in figure 8, the first plate 261 forms fluted 2611 close to the side of the second plate 262, first sliding groove and second are slided Slot is respectively positioned on the two sides of groove 2611 and is disposed adjacent with groove 2611.In this way, working as metallographic light path tube 23 and fluorescence light path tube 24 when being slidably arranged in first sliding groove and second sliding slot, and the setting of groove 2611 avoids the first plate 261 to metallographic light path tube 23 and fluorescence light path tube 24 move limitation.

In the present embodiment, driving mechanism includes the first push rod 251 and the second push rod 252, the first push rod 251 and second support 232 connections, the second push rod 252 are connect with the 4th bracket 242.First push rod 251 is able to drive the movement of second support 232 to band Dynamic metallographic light path tube 23 moves, and the second push rod 252 is able to drive the movement of the 4th bracket 242 to drive fluorescence light path tube 24 to transport It is dynamic.Microscope body 1 includes microscope shell 13 and microscope stand 12, and microscope shell 13 is for coating microscope stand 12.One end of first push rod 251 and one end of the second push rod 252 are pierced by microscope shell 13, to facilitate operation.

It is pulled outwardly the first push rod 251 and the second push rod 252, as shown in figure 3, making metallographic light path tube 23 and fluorescence light path tube 24 are not correspondingly arranged with main optical path cylinder 27, at this point, there is no the entrance of other optical paths on object lens 3 to the path of image-forming assembly 4, it is micro- Mirror can make biomicroscope or stereomicroscope uses.The first push rod 251 inwardly is pushed away, makes metallographic light path tube 23 and main optical path cylinder 27 are correspondingly arranged, as shown in Figures 4 and 5, at this point, having the entrance of metallographic light source on object lens 3 to the path of image-forming assembly 4, so that aobvious Micro mirror can be used as metallographic microscope.It is pulled outwardly the first push rod 251 and inwardly pushes away the second push rod 252, so that fluorescence light path Cylinder 24 is correspondingly arranged with main optical path cylinder 27, as shown in FIG. 6 and 7, at this point, there is fluorescence light on object lens 3 to the path of image-forming assembly 4 Source enters, and microscope is used as fluorescence microscope.

In one embodiment, the first push rod 251 and the second push rod 252 can also each be arranged in microscope shell 13, and The driving sources such as motor or motor are set in microscope shell 13, to drive the first push rod 251 and the movement of the second push rod 252. It is also possible that the first push rod 251 and the second push rod 252 can omit, metallographic light path tube 23 and fluorescence are directly driven by driving source Light path tube 24 moves.

In other embodiments, metallographic light path tube 23 and fluorescence light path tube 24 can also be rotated relative to connecting plate 26, so that One of them of metallographic light path tube 23 and fluorescence light path tube 24 are correspondingly arranged with main optical path cylinder 27.

Above disclosures are merely preferred embodiments of the utility model, the utility model cannot be limited with this certainly Interest field, therefore equivalent variations made according to the claim of the utility model still fall within the scope of the utility model.

Claims (10)

1. a kind of microscope for integrating biology, entity, fluorescence and metallographic function, which is characterized in that including microscope body And light source group, the light source group are connected on the microscope body, the light source group includes back light source, side light source, metallographic light Road cylinder, fluorescence light path tube, main optical path cylinder and light path switching component are formed with objective table, the loading on the microscope body Light hole is formed on platform, the light hole is located on the axis of the main optical path cylinder；

The back light source is arranged in the lower section of the objective table and is arranged with the light hole face, the metallographic light path tube, institute It states fluorescence light path tube and the side light source is respectively positioned on the top of the objective table, the axis of the side light source and the main optical path cylinder In the light of angle setting and side light source sending towards the light hole, the light path switching component is for adjusting the gold The position of phase light path tube and the fluorescence light path tube so that at most one of the metallographic light path tube and the fluorescence light path tube with The main optical path cylinder is correspondingly arranged.

2. microscope according to claim 1, which is characterized in that the microscope further includes can with the microscope body The objective lens of dismantling connection, the objective lens include entity object lens and high power objective, and the entity object lens are matched with the side light source It closes, the high power objective and the back light source cooperate.

3. microscope according to claim 1, which is characterized in that the metallographic light path tube includes first support, second Frame, first light source, the first lens group and light splitting piece, the first support are connect with the second support, the first light source and First lens group is arranged in the first support, and the light splitting piece is arranged in the second support, first light The light that source issues can reach the objective table through first lens group and the light splitting piece.

4. microscope according to claim 3, which is characterized in that the first light source is LED light source.

5. microscope according to claim 1, which is characterized in that the fluorescence light path tube includes third bracket, the 4th Frame, second light source, the second lens group and dichronic mirror, the third bracket are connect with the 4th bracket, the second light source and Second lens group is arranged in the third bracket, and the dichronic mirror is arranged in the 4th bracket, second light The light that source issues can reach the objective table by second lens group and the dichronic mirror.

6. microscope according to claim 5, which is characterized in that the second light source is LED light source.

7. microscope according to claim 5, which is characterized in that the fluorescence light path tube further includes the first optical filter and Two optical filters, first optical filter and second optical filter are arranged in the 4th bracket, first optical filter It is arranged between second lens group and the dichronic mirror, the second optical filter setting deviates from the load in the dichronic mirror The side of object platform.

8. microscope according to claim 1, which is characterized in that the light path switching component includes driving mechanism and connection Plate, the connecting plate for being connect with microscope body, the metallographic light path tube and the fluorescence light path tube with the connection Plate is flexibly connected, and the driving mechanism is for driving the metallographic light path tube and the fluorescence light path tube relative to the connecting plate Movement.

9. microscope according to claim 8, which is characterized in that the driving mechanism includes that the first push rod and second push away Bar, first push rod are connect with the metallographic light path tube, and second push rod is connect with the fluorescence light path tube, the connection Guide rail is formed on plate, the fluorescence light path tube and the metallographic light path tube are slidably connected with the guide rail, and described first pushes away Bar is able to drive the metallographic light path tube and slides along the guide rail, and second push rod is able to drive the fluorescence light path tube along institute State guide rail sliding.

10. microscope according to claim 9, which is characterized in that the connecting plate includes the first plate and is oppositely arranged on The second plate and third plate on first plate, the guide rail include the first sliding groove being arranged on first plate and the second plate And the second sliding slot between first plate and the third plate is set, through-hole, the through-hole are provided on the connecting plate On the axis of the main optical path cylinder.