CN203573021U - 3d intelligent digital microscope - Google Patents

Abstract

A 3D intelligent digital microscope is characterized in that the intelligent microscope comprises a microscope host provided with a three-dimensional display screen and a microscope lens used for taking images, the microscope lens is arranged on one side, of the microscope host, being opposite to the three-dimensional display screen, the microscope lens comprises a first microscope lens unit and a second microscope lens unit which are horizontally arranged at an interval, and the inner of the microscope host is provided with a control device used for controlling the microscope lens to achieve digital zoom and transforming optical signals into two-dimensional images or three-dimensional images that can be sensed by human eyes. According to the utility model, two microscope lens units are integrated on the microscope host, and the control device is arranged in the microscope host, and therefore planar or three-dimensional microscopic images can be intuitively checked through the three-dimensional display screen, and functions such as digital zoom, data storage, data transmission and the like can be achieved, visual fatigue problems brought by ocular lens observation can be solved, observation accuracy can be improved, and the 3D intelligent digital microscope is convenient to use and carry, and the application scope of the 3D intelligent digital microscope can be broadened.

Description

3D intelligent digital microscope

[technical field]

The utility model relates to microscope, particularly a kind of 3D intelligent digital microscope.

[background technology]

Traditional microscope consists of pedestal, support, lens barrel and the object lens and the eyepiece that are installed on lens barrel two ends.This microscope is comprised of pure optics, it does not possess display screen, image can not be outputed on other display terminals and shows, for obtaining micro-image, just essential additional configuration imaging device, as special purpose computer of extra connection, this just makes it can only be applied to fixed-site, be positioned on fixing work top, and can not often move or carry, thereby make it apply the restriction of field of employment.

Along with the development of technology and the demand in market, in medical treatment, criminal investigation, the administration of justice, industry, mining, all trades and professions such as engage in archaeological studies, gather medicinal herbs, existing conventional plane microscope can not meet use needs, so engendered a kind of stereo microscope.Existing solid type microscope has two eyepieces, and it is used for observing object and making user produce the sense organ of three-dimensional image from two different angles.This stereo microscope provides beam splitter to be provided for watching the double light path of object conventionally to single objective system, to provide a light path for every eyes.While only having user's eyes to keep a close watch on eyepiece to watch, just may perceive 3 D stereoscopic image, therefore long-time use just can cause eye fatigue, easily observes and makes mistakes simultaneously.In addition, if the angle between two observed rays is very large, the distortion just the object that perceived so can seem.

On the other hand, existing stereo microscope major part needs manual focusing, trouble and difficult adjustment.People for lacking use experience, goes to regulate image to have sizable difficulty by binocular observation.

Therefore, although existing stereo microscope can be realized three dimensional viewing to a certain extent, it still has numerous shortcomings: 1, volume is large, is not easy to carry and use, and application places is limited; 2, must observe by eyepiece, cannot pass through display screen output display, easily cause eye fatigue, and inconvenient other people observe simultaneously; 3, need manual focusing, be inconvenient to operate.

[utility model content]

The utility model is intended to address the above problem, and provides a kind of volume small and exquisite, is convenient to mobilely, is convenient to Real Time Observation micro-image, and can autozoom and the 3D intelligent digital microscope of storage operation image.

For achieving the above object, the utility model provides a kind of 3D intelligent digital microscope, it is characterized in that, this intelligence microscope comprises and is provided with the microscope main frame of three-dimensional display screen and for absorbing the microlens of micro-image, described microlens is located at a side relative with three-dimensional display screen of microscope main frame, it comprises the first microlens and the second microlens that horizontal interval arranges, in described microscope main frame, be provided with for control described microlens realize Digital Zoom and by light signal convert to two dimensional image or human eye can perception the control device exported by three-dimensional display screen of three-dimensional image, thereby microlens and the microscope main frame that is provided with three-dimensional display screen are combined, on this hardware foundation, thereby can conveniently carry out 2D/3D image viewing, 2D/3D image acquisition, the contrast of 2D/3D image, 2D/3D image is processed and 2D/3D image storage, personnel easy to use utilize microscope of the present utility model to carry out 2D/3D microexamination whenever and wherever possible, the micro-collection of 2D/3D, the micro-contrast of 2D/3D, 2D/3D microscopic analysis and 2D/3D image storage etc.

Described control device comprises photoelectric conversion unit, image data processing unit, data storage cell, data transmission unit and power supply unit; Described photoelectric conversion unit is for converting the light signal of described microlens to digital signal, it comprises the first photoelectric commutator and the second photoelectric commutator, described the first photoelectric commutator is connected with described the first microlens and image data processing unit respectively, and described the second photoelectric commutator is connected with described the second microlens and image data processing unit respectively; Described image data processing unit is for becoming can carry out the data-signal of three-dimensional image output or two dimensional image output by described digital signal processing, it is connected with described photoelectric conversion unit and data storage cell; Described data storage cell is connected with described image data processing unit, and described data transmission unit is for transferring to three-dimensional display screen and/or other display terminals by data-signal, and it is connected with described data storage cell and three-dimensional display screen; Described power supply unit is used to described control device that working power is provided, and it is connected with described photoelectric conversion unit, image data processing unit, data storage cell, data transmission unit respectively.

Described three-dimensional display screen is to have the single-point touch of high definition resolution or retina resolution or the 3D touch-screen of multi-point touch, and this three-dimensional display screen has 2D/3D and shows handoff functionality.

Described microlens is tubular, its front side surface is provided with some LED lamps along its circumferentially-spaced, and this LED lamp is coaxial directed cold light source, and it is connected with described control device, this LED lamp is opened or is closed under the control of control device, and can realize the adjusting of irradiation brightness and angle.

Described microlens be tool manually control focusing, eyes control focusing or action control focusing can autozoom AF camera lens.

Described photoelectric conversion unit is CCD or the CMOS of 5,000,000 pixel to 4,000 ten thousand pixels.

Described the first microlens and the second microlens by camera lens bayonet socket or spiral connected mode be fixedly connected with described microscope main frame on, 3～10 centimetres of the Center Gap of described the first microlens and the second microlens.

Described the first microlens and the second microlens by guide rail be flexibly connected with described microscope main frame on, between this first microlens and the second microlens, the distance at interval can regulate along guide rail.

Described data storage cell is flash memory, solid state hard disc or mechanical micro harddisk, described data transmission unit comprises wireless transport module, and this wireless transport module is any one or the multiple combination in Bluetooth transmission module, wifi transport module, 3G transport module or 4G transport module.

Described microscope main frame is rectangular, and its outer surface is provided with data transmission interface and controls button, and described data transmission interface is connected with described data transmission unit, microscope pass through this data transmission interface and with other receiving terminal wired connections; Described control button comprises microscope on & off switch, adjustment image and the directionkeys of area of visual field direction, the brightness regulation key that regulates the brightness of described LED lamp, the angular adjustment key that regulates described LED light irradiation angle and the 2D/3D shift key of opening or closing for controlling microscope, and described control button is connected with described control device respectively.

Useful contribution of the present utility model is, it efficiently solves the problems referred to above.The utility model is by being integrated into two microlens on microscope main frame, and arrange and optical signalling can be converted to the control device that video signal is stored and exported in microscope main frame, thereby can realize the object of intuitively checking micro-image by three-dimensional display screen, and can realize the functions such as Digital Zoom, data storage and data transmission, not only can solve the visual fatigue problem of using eyepiece observation post to bring, be conducive to improve observation accuracy, and use easy to carryly, can expand range of application.

[accompanying drawing explanation]

Fig. 1 is structural representation of the present utility model.

Wherein, microscope main frame 10, microlens 20, the first microlens 21, the second microlens 22, LED lamp 23, data transmission interface 24, control button 25.

[embodiment]

The following example is to further explanation of the present utility model and supplements, the utility model is not constituted any limitation.

As shown in Figure 1,3D intelligent digital microscope of the present utility model comprises microscope main frame 10, microlens 20 and control device 30.3D intelligent digital microscope of the present utility model both can have been realized the output of plane micro-image, can realize again 3 D stereo micro-image image, can between 2D and 3D rendering, switch.

Specifically, as shown in the figure, described microlens 20 is for optical imagery, and it is the micro-parts of microscopical optical amplifier.Described microlens 20 comprises the first microlens 21 and the second microlens 22, and it generates for absorbing object image the optical imagery amplifying.Described the first microlens 21 and the second microlens 22 are located at a side surface of described microscope main frame 10, its horizontal interval certain distance, the distance at its interval so that image quality good be principle, in the present embodiment, 3～10 centimetres, the Center Gap interval of described the first microlens 21 and the second microlens 22.Described microlens 20 can be located on microscope main frame 10 by known mode, as spiral connects or connects by camera lens bayonet socket, also can be flexibly connected by the mode of guide rail with microscope main frame 10 on, thereby can be by mobile the first microlens 21 and the distance that the second microlens 22 regulates between the two, take manual adjustments three-dimensional imaging effect (this design is mainly as being quite familiar with user's use of three-dimensional camera lens adjustment).Described guide rail can be done adaptability revision with reference to known camera lens guide rail, because main inventive point of the present utility model does not lie in the concrete syndeton of microlens 20, and be microscopical one-piece construction setting, therefore, how described microlens 20 is flexibly connected by guide rail with microscope main frame 10, in the present embodiment, does not specifically describe.When described the first microlens 21 and the second microlens 22 are worked simultaneously, its image that absorbs same object at diverse location can form the two width images with sight equation, thereby can be by the 3-D view of human eye binocular perception by its its synthetic being processed into by control device.When one of them camera lens work, can generate common plane enlarged image and export.In the present embodiment, described microlens 20 is the AF camera lens of above optical zoom doubly, and it has multiple optical zoom multiplying power and range, can realize and manually control focusing, eyes control is focused or action control is focused.Select the camera lens of which kind of focusing mode, can set according to actual user demand.

Described microlens 20 is tubular camera lens, is provided with some LED lamps 23 along its circumferentially-spaced on its front side surface, and this LED lamp 23 is coaxial directed cold light source, and its heat is low, thereby its when illumination can be reduced the impact on operation greatly.This LED lamp 23 is connected with described control device, by the power supply unit of control device, for it, provides power supply.For meeting the illumination of different condition, described LED lamp 23 can be arranged to according to environment brightness adjusting or angle manually or automatically.In the present embodiment, described LED lamp 23 can be by being located at brightness regulation key and the manual adjustments brightness of angular adjustment key and the angle on microscope main frame 10.

Described microscope main frame 10 is rectangular, and than existing surgical operation microscope, its volume is smaller and more exquisite, thereby is convenient to move and carry.A side relative with microlens 20 at this microscope main frame 10 is provided with three-dimensional display screen.The image that this three-dimensional display screen absorbs for output display microlens 20.During for ease of operation, conveniently check some details or image is shown and carries out control operation, this three-dimensional display screen can be selected the sensitive touch-screen of touch-control, and can select according to actual needs the touch-screen of single-point touch or multi-point touch.For ease of more clearly carrying out microexamination, the resolution of described three-dimensional display screen is arranged to high definition resolution or retina screen resolution, and in addition, this three-dimensional display screen can also person easy to use switch micro-demonstration image between 2D and 3D.For being further convenient to control operation, at the outer surface of described microscope main frame 10, be provided with and control button 25, this is controlled button 25 and is connected with described control device.In the present embodiment, this control button 25 comprises microscope on & off switch, directionkeys, brightness regulation key, angular adjustment key and 2D/3D shift key.Described microscope on & off switch is used for controlling microscopically closes and starts.Described directionkeys is for regulating the direction of image and adjusting viewing area.Described brightness regulation key is for regulating the brightness of LED lamp 23, and described angular adjustment key is for regulating the irradiating angle of described LED lamp 23, and described 2D/3D shift key is for switching the display type of three-dimensional display screen: 2D image or 3D rendering.Described 2D/3D shift key reply should have 2 or 3 duties, the present embodiment, it is provided with 3 duties, when the first duty, described three-dimensional display screen output three-dimensional image: the first microlens 21 and the second microlens 22 absorb object image simultaneously, generate the image that two width have sight equation, thereby can synthesize, be processed into three-dimensional image.When the second duty, the normal picked-up object image of described the first microlens 21, the second microlens 22 quits work; When the 3rd duty, the impact of the normal picked-up object of described the second microlens 22, the first microlens 21 quits work.Wherein, under the second duty and the 3rd duty, what described three-dimensional display screen was exported is plane picture, i.e. 2D image.By 2D/3D shift key, can make to export picture switches between 3 dimensional drawing and planimetric map.In addition,, on this hardware foundation, for realizing the image comparison of different directions, when the first duty, also can, by by split screen display technique, make the image of three-dimensional display screen split screen demonstration different directions, further to reach the object of image comparison.

For ease of controlling described microlens 20, and convert the optical signalling of microlens 20 to plane picture or 3 dimensional drawing image signal carries out output display, in described microscope main frame 10, be provided with control device.As shown in the figure, described control device comprises photoelectric conversion unit, image data processing unit, data storage cell, data transmission unit and power supply unit.

Described photoelectric conversion unit is for converting the light signal of described microlens 20 to digital signal, and it is connected with described microlens 20.Described photoelectric conversion unit comprises the first photoelectric commutator and the second photoelectric commutator.Described the first photoelectric commutator is connected with described the first microlens 21 and image data processing unit respectively, for converting the light signal of the first microlens 21 object that absorbs to digital signal, and sends image data processing unit to and processes; Described the second photoelectric commutator is connected with described the second microlens 22 and image data processing unit respectively, for converting the light signal of the second microlens 22 object that absorbs to digital signal, and is transferred to image data processing unit and processes.Described optical conversion unit can be selected known CCD or CMOS.In the present embodiment, this photoelectric conversion unit is the CCD of 5,000,000 pixel to 4,000 ten thousand pixels, and its concrete pixel request is depending on requirements of operation.

Described image data processing unit is for becoming can carry out the data-signal of three-dimensional image output or two dimensional image output by described digital signal processing, it is connected with described photoelectric conversion unit and data storage cell.Because general service time of microscope time is longer, described image data processing unit should be able to meet the requirement of long time continuous working.Described image data processing unit can be selected known plane and the synthetic functional module of processing of 3-D view of carrying out.

Described data storage cell is connected with described image data processing unit, and it has high speed storing read functions and larger storage area.This data storage cell can be flash memory, solid state hard disc or mechanical micro harddisk, and in the present embodiment, this data storage cell is solid state hard disc.

Described data transmission unit is for transferring to three-dimensional display screen by data-signal, and it is connected with described data storage cell and three-dimensional display screen.In the present embodiment, described data transmission unit can be selected known data transmission module.On described microscope main frame 10, be provided with data transmission interface 24, this data transmission interface 24 is connected with described data transmission unit, described microscope can be connected with other receiving terminals by this data transmission interface 24, as computer, thereby the captured micro-image of microlens 20 can be transferred on other receiving terminals.Described data transmission interface 24 is USB interface, according to the type of other receiving terminals of required connection, described data transmission interface 24 can be arranged to match can not type USB interface.In addition, also can wireless transport module be set as required, utilize bluetooth, wifi, 3G or 4G technology to realize the transmission of data-signal, make application places more unrestricted.

Described power supply unit is used to described control device to provide and microlens 20 provides working power, and it is connected with described photoelectric conversion unit, image data processing unit, data storage cell, data transmission unit and LED lamp 23 respectively.In the present embodiment, this power supply unit is the jumbo lithium battery discharging and recharging.

By this, the utility model is by being integrated into two microlens 20 and three-dimensional display screen on microscope main frame 10, and optical signalling can be converted to the control device that video signal is stored and exported in the interior setting of microscope main frame 10, thereby realized the object of intuitively checking micro-image by three-dimensional display screen, and can realize Digital Zoom, the functions such as data storage and data transmission, not only can solve the visual fatigue problem of using eyepiece observation post to bring, be conducive to improve observation accuracy, and use easy to carry, can expand range of application.On hardware configuration of the present utility model basis, those skilled in the art can further realize image and process by carrying corresponding process software, as measures the length, area, angle, density etc. of specific part, thereby provides professional purpose for user.The picture obtaining by microscope of the present utility model, can realize data sharing by wireless transport module, thereby can facilitate, further utilizes the view data obtaining.

3D intelligent digital microscope of the present utility model can be applicable to many-side, as medical science aspect---and various skin diseases, microorganism, blood are carried out to microscopic photography, and then real-time transmission data is so that remote medical consultation with specialists or perform the operation nearby etc.; And for example be applied to industrial aspect---microscopic photography circuit board, carries out precision optical machinery detection; And for example being applied to agronomy aspect---microscopic photography is observed soil, plant etc.; And for example Well grab---Real-Time Forensics is also preserved, and fast and easy is preserved complete evidence.When microscope applications of the present utility model is during in different field, can specialize microscopical various parameter according to user demand, as the archaeology used time, the multiple of described microlens 20 can select lower a little, and camera lens can be set to be fixedly connected with.While being and for example applied to field, the flying power of battery should be permanent as far as possible.While being and for example applied to Well grab, the multiple of described microlens 20 can be selected higher.It should be noted that, 3D intelligent digital microscope of the present utility model is not limited to purposes described in the present embodiment, only for referencial use described in the present embodiment.During use, 3D intelligent digital microscope of the present utility model can be placed on support, as taken on A-frame or Telescopic moving support.Accordingly, different according to the type of support, corresponding connector can be set at the outer surface of described microscope main frame 10.As for described microscope main frame 10, how to be connected with support, can to arrange because of place and user demand, the present embodiment is not done concrete introduction.

Although the utility model is disclosed by above embodiment, but scope of the present utility model is not limited to this, do not departing under the condition of the utility model design, the similar or equivalent element that above each member can be understood with affiliated technical field personnel is replaced.

Claims (10)

1. a 3D intelligent digital microscope, it is characterized in that, this intelligence microscope comprises and is provided with the microscope main frame (10) of three-dimensional display screen and for absorbing the microlens (20) of micro-image, described microlens (20) is located at a side relative with three-dimensional display screen of microscope main frame (10), it comprises the first microlens (21) and the second microlens (22) that horizontal interval arranges, in described microscope main frame (10), be provided with for control described microlens (20) realize Digital Zoom and by light signal convert to two dimensional image or human eye can perception the control device exported by three-dimensional display screen of three-dimensional image.

2. 3D intelligent digital microscope as claimed in claim 1, is characterized in that, described control device comprises photoelectric conversion unit, image data processing unit, data storage cell, data transmission unit and power supply unit; Described photoelectric conversion unit is for converting the light signal of described microlens (20) to digital signal, it comprises the first photoelectric commutator and the second photoelectric commutator, described the first photoelectric commutator is connected with described the first microlens (21) and image data processing unit respectively, and described the second photoelectric commutator is connected with described the second microlens (22) and image data processing unit respectively; Described image data processing unit is for becoming can carry out the data-signal of three-dimensional image output or two dimensional image output by described digital signal processing, it is connected with described photoelectric conversion unit and data storage cell; Described data storage cell is connected with described image data processing unit, and described data transmission unit is for transferring to three-dimensional display screen and/or other display terminals by data-signal, and it is connected with described data storage cell and three-dimensional display screen; Described power supply unit is used to described control device that working power is provided, and it is connected with described photoelectric conversion unit, image data processing unit, data storage cell, data transmission unit respectively.

3. 3D intelligent digital microscope as claimed in claim 2, it is characterized in that, described three-dimensional display screen is to have the single-point touch of high definition resolution or retina resolution or the 3D touch-screen of multi-point touch, and this three-dimensional display screen has 2D/3D and shows handoff functionality.

4. 3D intelligent digital microscope as claimed in claim 3, it is characterized in that, described microlens (20) is tubular, its front side surface is provided with some LED lamps (23) along its circumferentially-spaced, this LED lamp (23) is coaxial directed cold light source, it is connected with described control device, and this LED lamp (23) is opened or closed under the control of control device, and can realize the adjusting of irradiation brightness and angle.

5. 3D intelligent digital microscope as claimed in claim 4, is characterized in that, described microlens (20) for tool manually control that focusing, eyes control that focusing or action control focus can autozoom AF camera lens.

6. 3D intelligent digital microscope as claimed in claim 5, is characterized in that, described photoelectric conversion unit is CCD or the CMOS of 5,000,000 pixel to 4,000 ten thousand pixels.

7. 3D intelligent digital microscope as claimed in claim 6, it is characterized in that, described the first microlens (21) is fixedly connected with described microscope main frame (10) and is gone up by camera lens bayonet socket or spiral connected mode, 3～10 centimetres of the Center Gap of described the first microlens (21) and the second microlens (22) with the second microlens (22).

8. 3D intelligent digital microscope as claimed in claim 6, it is characterized in that, described the first microlens (21) and the second microlens (22) are flexibly connected with described microscope main frame (10) upper by guide rail, between this first microlens (21) and the second microlens (22), the distance at interval can regulate along guide rail.

9. the 3D intelligent digital microscope as described in claim 7 or 8 any one, it is characterized in that, described data storage cell is flash memory, solid state hard disc or mechanical micro harddisk, described data transmission unit comprises wireless transport module, and this wireless transport module is any one or the multiple combination in Bluetooth transmission module, wifi transport module, 3G transport module or 4G transport module.

10. 3D intelligent digital microscope as claimed in claim 9, it is characterized in that, described microscope main frame (10) is rectangular, its outer surface is provided with data transmission interface (24) and controls button (25), described data transmission interface (24) is connected with described data transmission unit, microscope by this data transmission interface (24) and with other receiving terminal wired connections; Described control button (25) comprises that described control button (25) is connected with described control device respectively for controlling microscope on & off switch, the directionkeys of adjusting image and area of visual field direction, the brightness regulation key that regulates described LED lamp (23) brightness that microscope opens or cut out, angular adjustment key and the 2D/3D shift key that regulates described LED lamp (23) irradiating angle.

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