CN204813798U - Hand -held type fundus camera based on liquid lens - Google Patents

Abstract

The utility model relates to a hand -held type fundus camera based on liquid lens, which comprises a housin, inside source of illumination, image sensor, first lens subassembly, second lens subassembly, liquid lens, drive circuit, signal processing unit, control assembly and the power supply module of being equipped with of casing, signal processing unit for control source of illumination's operating condition still is used for receiving the data signal that the image processing sensor was gathered, with the definition evaluating indicator who acquires the image, and sends the operating condition that a control signal controlled drive circuit according to the definition evaluating indicator of image, drive circuit is used for receiving the operating condition of control signal in order to drive liquid lens that signal processing unit sent, power supply module for for source of illumination, image sensor, drive circuit, signal processing unit and control assembly power supply. The utility model discloses simple structure, small can realize full auto focus based on the feedback control of image definition index.

Description

Based on the hand-held fundus camera of liquid lens

Technical field

This utility model relates to Medical Imaging, particularly relates to a kind of hand-held fundus camera based on liquid lens.

Background technology

Hand-held fundus camera belongs to Medical Imaging, for obtaining human eye retina's image, plays the function of retinopathy inspection and auxiliary other organ state of an illness judgement.The focusing of current hand-held fundus camera mainly contains two kinds of methods, and a kind of is the manual focusing mode regulating optical module or sensor relative position, and another kind is automatic focusing mode.And current manual focusing and automatic focusing mode all need complicated machinery and motor drive mode, limit the lifting of the indexs such as hand-held fundus camera volume, weight and battery life.

Along with the development of active optics device, active optics technology is progressively applied in opticianry imaging, as Laser Scanning Confocal.In fundus camera field, some fundus cameries adopt distorting lens to eliminate eyes and imaging optical system aberration realizes cell grade imaging, this fundus camera uses laser or flash lamp as lighting source, and owing to which employs the distorting lens of MEMS or Piezoelectric Ceramic, system needs high-voltage amplifier to drive distorting lens, this kind of optical fundus microscopes optical path is very complicated in addition, can not meet the requirement of portable equipment to portability, motility.

Liquid lens is that development in recent years is got up cheap active optics device, and its adopts liquid as optical channel, utilizes Electromagnetic Drive Technology to change the focal power of liquid lens, reaches the object of focusing.Because liquid lens is without the need to additional machinery focus adjusting mechanism, reduces the volume of optical system, in endoscope, achieve application.Wherein, application number be 201310728493.6 Chinese invention patent disclose a kind of Portable fundus camera based on variable curvature formula liquid lens, main purpose adopts liquid variable curvature lens to replace traditional mechanical focusing structure, plays the object of simplied system structure.The mode that this invention adopts spectroscope to close bundle realizes the fundus illumination of direct light and white light, the coincidence that spectroscope, crosshair and an object locator realize the optical axis and optical axis is in turn introduced in imaging optical path, its focusing mode is the controling parameters of manual adjustments liquid convex lens, does not realize auto-focusing.But, technology path due to this invention introduces the optical elements such as two spectroscopes, crosshair and object locator, make light path comparatively complicated, add the resetting difficulty of camera, and fundus reflex light echo is very weak, therefore spectroscopical introducing further increases the requirement to sensor and light exposure, make system cost be difficult to reduce, the light radiation that human eye is born is also larger.

Utility model content

For the deficiencies in the prior art, this utility model aims to provide that a kind of structure is simple, volume is little, and can realize the hand-held fundus camera based on liquid lens of full-automatic focusing.

For achieving the above object, this utility model adopts following technical scheme:

A kind of hand-held fundus camera based on liquid lens, comprise housing, described enclosure interior is provided with lighting source, imageing sensor, the first lens subassembly, the second lens subassembly, liquid lens, drive circuit, signal processing unit, Control Component and power supply module;

Described lighting source, for throwing light on to optical fundus;

Described imageing sensor, the optical signalling for the image by acquisition is converted to digital signal;

Described first lens subassembly, is positioned at the left front end of described housing, focuses on optical fundus for the light beam sent by described lighting source, form the Uniform Illumination to optical fundus, also for gathering the light beam that fundus reflex is returned;

Described second lens subassembly, between described first lens subassembly and imageing sensor, for focusing on imageing sensor by the light beam that fundus reflex is returned together with the first lens subassembly;

Described signal processing unit, for controlling the duty of lighting source, also for receiving the digital signal that process imageing sensor collects, to obtain the definition evaluation index of image, and send according to the definition evaluation index of image the duty that a control signal controls drive circuit;

Described drive circuit, for receiving control signal that described signal processing unit sends to drive the duty of liquid lens;

Described Control Component, for being connected with signal processing unit, to realize control of taking pictures;

Described power supply module, for powering for lighting source, imageing sensor, drive circuit, signal processing unit and Control Component;

Wherein said liquid lens between the first lens subassembly and the second lens subassembly, or between the second lens subassembly and imageing sensor.

Preferably, described lighting source comprises at least one and guides light source and at least one exposure light source, and described guiding light source is all connected with signal processing unit with exposure light source.

Preferably, described first lens subassembly is a non-spherical lens.

Preferably, described second lens subassembly is made up of the cemented doublet that two are separated.

Preferably, described Control Component is any one in the mechanical key or touch screen be connected with signal processing unit.

Preferably, described hand-held fundus camera also comprises display module, data storage cell and data transmission interface; Described display module, data storage cell and data transmission interface are all connected with signal processing unit, and power by power supply module.

Preferably, described display module is positioned at the outside of described housing, and described data storage cell and the equal assembly of data transmission interface are in the inside of described housing.

Preferably, described data transmission interface is the one in wired data interface and wireless data interface.

The beneficial effects of the utility model are as follows:

This structure based on the hand-held fundus camera of liquid lens is simple, volume is little, can realize full-automatic focusing based on the feedback control of image definition index.Light path in this utility model is comparatively simple, and decrease the resetting difficulty of camera, the light radiation that human eye is born is less, and the light beam that fundus reflex is returned is stronger.And while guarantee shooting quality, also make the production cost based on the hand-held fundus camera of liquid lens reduce.

Accompanying drawing explanation

Fig. 1 is the structure chart of this utility model based on the better embodiment of the hand-held fundus camera of liquid lens.

Fig. 2 is the illumination path of this utility model based on the better embodiment of the hand-held fundus camera of liquid lens.

Fig. 3 is the imaging optical path of this utility model based on the better embodiment of the hand-held fundus camera of liquid lens.

Detailed description of the invention

Below in conjunction with accompanying drawing and detailed description of the invention, this utility model is described further:

Refer to Fig. 1, this utility model relates to a kind of hand-held fundus camera based on liquid lens, its better embodiment comprises housing 12, and housing 12 inside is provided with lighting source 1, imageing sensor 2, first lens subassembly 3, second lens subassembly 4, liquid lens 10, drive circuit 11, signal processing unit 5, Control Component 6 and power supply module 13.

Concrete, lighting source 1, for throwing light on to optical fundus.Here lighting source is to send the narrow wave band monochrome of wavelength between 400nm-2000nm or the light source of broadband light beam.Lighting source can be the one in light emitting diode, laser instrument and flash lamp, also can be the combination of multiple above light source.As preferably, lighting source 1 comprises at least one and guides light source and at least one exposure light source, and guides light source to be all connected with signal processing unit with exposure light source.Light source is guided to carry out closing and opening under the control of signal processing unit.Exposure light source can expose under the control of signal processing unit, and wherein time of exposure is generally between 0.2 millisecond-300 milliseconds.Preferred further, lighting source 1 can comprise an infrared LED (850nm wave band) and a white light LEDs (450nm-650nm), infrared LED and white light LEDs all can be embedded on same pcb board, wherein infrared LED can be used as to guide light source, and white light LEDs can be used as exposure light source.

Imageing sensor 2, the optical signalling for the image by acquisition is converted to digital signal.Here imageing sensor is a two-dimensional image sensor, and it can be the one in CCD, CMOS or the two-dimension photoelectric sensor part that is made up of one dimension sensor array.As preferably, imageing sensor can be the CMOS chip of a 1920*1080 resolution.

As shown in Figures 2 and 3, the first lens subassembly 3, is positioned at the left front end of described housing, focuses on optical fundus for the light beam sent by described lighting source, form the Uniform Illumination to optical fundus, namely form illumination path.First lens subassembly also for gathering the light beam that fundus reflex is returned, for the formation of imaging optical path.Wherein, this first lens subassembly is made up of one group of optical element or space length, and as preferably, it can be specifically a non-spherical lens.

Second lens subassembly 4, between the first lens subassembly 3 and imageing sensor 2, focuses on imageing sensor 2 for the light beam of being returned by fundus reflex together with the first lens subassembly 3.Here the second lens subassembly is made up of one group of optical element or space length, often organizes optical element and comprises at least one lens.Wherein, as preferably, the cemented doublet that the second lens subassembly can be separated by two be formed.Here cemented doublet also serves the effect of correcting chromatic aberration.

Signal processing unit 5, for controlling the duty of lighting source, also for receiving the digital signal that process imageing sensor collects, to obtain the definition evaluation index of image, and send according to the definition evaluation index of image the duty that a control signal controls drive circuit 11.Here signal processing unit 5 can be a SOC comprising DSP and ARM chip.This control signal can control the signal intensity that drive circuit 11 is loaded into liquid lens 10.For obtaining above-mentioned control signal, signal processing unit comprises a liquid lens control algolithm module, liquid lens control algolithm module loads according to image definition evaluation index calculate with the signal intensity obtaining liquid lens controller, namely acts on the control signal of drive circuit.

Wherein, image definition evaluation index is the conversion of eye fundus image gray value, generally choose gray value in a region or the several region of image and, or quadratic sum, or a few power and, also can be based on gray value gradient, image entropy, value based on frequency domain Fourier transformation or wavelet transformation.

What liquid lens control algolithm module adopted is feedback control algorithm based on image definition evaluation index, can be PID, genetic algorithm, random paralleling gradient descent algorithm, simulated annealing or look-up table.As preferably, liquid lens control algolithm module adopts climbing method, and climbing method is a kind of random feedback control algorithm.Because be difficult between image definition evaluation index and the control signal of liquid lens obtain an analytical expression, the general maximization adopting random feedback control algorithm to realize image definition index in this kind of situation, thus make acquisition picture clarity the highest.

Drive circuit 11, for receiving control signal that described signal processing unit sends to drive the duty of liquid lens 10.Wherein, drive circuit is connected with signal processing unit by I2C interface, for the control signal of Received signal strength processing unit, and is loaded on liquid lens, to complete the control to liquid lens focal length after this control signal being changed.Wherein liquid lens 10 is between the first lens subassembly and the second lens subassembly, or between the second lens subassembly and imageing sensor.

Control Component 6, for being connected with signal processing unit 5, to realize control of taking pictures.Control Component, as an input equipment, can be any one in the mechanical key or touch screen be connected with signal processing unit.

Moreover power supply module 13, for powering for lighting source, imageing sensor, drive circuit, signal processing unit and Control Component.Power supply module can be lithium battery, can certainly be the battery of other types.

As preferred further, hand-held fundus camera also comprises display module 7, data storage cell 8 and data transmission interface 9; Described display module 7, data storage cell 8 and data transmission interface 9 are all connected with signal processing unit, and power by power supply module.Display module is positioned at the outside of described housing, and data storage cell and the equal assembly of data transmission interface are in the inside of described housing.

Wherein, Control Component 6 can control the duty of display module 7 by signal processing unit 5, namely realize browsing of picture.Data storage cell 8 can be mechanical hard disk, also can be solid state hard disc, also can be the storage cards such as SD or T-Flash.Data transmission interface 9 is the one in wired data interface and wireless data interface.When data transmission interface 9 is wired data interface, it can be USB interface, also can be CameraLink interface.When data transmission interface 9 is wireless data interface, it can be any one in Wifi interface, Zigbee interface and blue tooth interface.

Concrete, the illumination path of the hand-held fundus camera based on liquid lens of the present utility model and imaging optical path are respectively as shown in Figures 2 and 3.The light that lighting source sends enters human eye to form illumination path by the first lens subassembly.The light beam that fundus reflex is returned simultaneously focuses on imageing sensor by the first lens subassembly, the second lens subassembly and liquid lens successively, the optical signalling of the image of acquisition is converted to digital signal and sends signal processing unit to by image sensor, to obtain the definition evaluation index of image, and send a control signal according to the definition evaluation index of image, this control signal carries out automatic focusing for controlling drive circuit to make liquid lens, thus obtains the higher picture of definition.

For a person skilled in the art, according to technical scheme described above and design, other various corresponding change and distortion can be made, and all these change and distortion all should belong within the protection domain of this utility model claim.

Claims (8)

1. the hand-held fundus camera based on liquid lens, comprise housing, it is characterized in that, described enclosure interior is provided with lighting source, imageing sensor, the first lens subassembly, the second lens subassembly, liquid lens, drive circuit, signal processing unit, Control Component and power supply module;

Described lighting source, for throwing light on to optical fundus;

Described imageing sensor, the optical signalling for the image by acquisition is converted to digital signal;

Described first lens subassembly, is positioned at the left front end of described housing, focuses on optical fundus for the light beam sent by described lighting source, form the Uniform Illumination to optical fundus, also for gathering the light beam that fundus reflex is returned;

Described second lens subassembly, between described first lens subassembly and imageing sensor, for focusing on imageing sensor by the light beam that fundus reflex is returned together with the first lens subassembly;

Described signal processing unit, for controlling the duty of lighting source, also for receiving the digital signal that process imageing sensor collects, to obtain the definition evaluation index of image, and send according to the definition evaluation index of image the duty that a control signal controls drive circuit;

Described drive circuit, for receiving control signal that described signal processing unit sends to drive the duty of liquid lens;

Described Control Component, for being connected with signal processing unit, to realize control of taking pictures;

Described power supply module, for powering for lighting source, imageing sensor, drive circuit, signal processing unit and Control Component;

Wherein said liquid lens between the first lens subassembly and the second lens subassembly, or between the second lens subassembly and imageing sensor.

2. as claimed in claim 1 based on the hand-held fundus camera of liquid lens, it is characterized in that: described lighting source comprises at least one and guides light source and at least one exposure light source, and described guiding light source is all connected with signal processing unit with exposure light source.

3., as claimed in claim 1 based on the hand-held fundus camera of liquid lens, it is characterized in that: described first lens subassembly is a non-spherical lens.

4. as claimed in claim 1 based on the hand-held fundus camera of liquid lens, it is characterized in that: described second lens subassembly is made up of the cemented doublet that two are separated.

5., as claimed in claim 1 based on the hand-held fundus camera of liquid lens, it is characterized in that: described Control Component is any one in the mechanical key or touch screen be connected with signal processing unit.

6. the hand-held fundus camera based on liquid lens according to any one of claim 1 to 5, is characterized in that: described hand-held fundus camera also comprises display module, data storage cell and data transmission interface; Described display module, data storage cell and data transmission interface are all connected with signal processing unit, and power by power supply module.

7., as claimed in claim 6 based on the hand-held fundus camera of liquid lens, it is characterized in that: described display module is positioned at the outside of described housing, described data storage cell and the equal assembly of data transmission interface are in the inside of described housing.

8. as claimed in claim 6 based on the hand-held fundus camera of liquid lens, it is characterized in that: described data transmission interface is the one in wired data interface and wireless data interface.