CN213843663U - Intelligent integrated liquid crystal digital microscope - Google Patents

Abstract

The utility model discloses an intelligent integrated liquid crystal digital microscope, which comprises a microscope main body, a display screen module and a circuit board positioned in the microscope main body, wherein an image sensor and an image processing unit are arranged in the microscope main body, the circuit board is provided with an HDMI interface, a network interface and a USB interface, each interface is arranged in an adaptation hole on the side wall of the microscope main body in a penetrating way, and the outside of the side wall of the microscope main body is provided with an antenna; a light-operated induction device and a liquid crystal display window are arranged in a base of the microscope main body; the display screen module comprises a connecting mechanism and a display screen, the connecting mechanism comprises a first rotating shaft and a second rotating shaft which are connected with each other, the rotating axes of the first rotating shaft and the second rotating shaft are vertical, and the display screen rotates around the first rotating shaft or the second rotating shaft when being overturned. Have the display screen concurrently and watch and the mode of watching of visualing, avoid observing for a long time and cause the discomfort, the interface function is many, transmission speed is fast, the formation of image is clear, simple operation, efficient and energy-conservation are applicable to different crowds demands and outdoor operations.

Description

Intelligent integrated liquid crystal digital microscope

Technical Field

The utility model belongs to the technical field of the microscope, concretely relates to intelligent integral type liquid crystal digital microscope.

Background

The biological microscope is a device widely applied to medical health institutions, laboratories, research institutions, high-rise colleges and universities and the like, and used for researches on biology, pathology and bacteriology, higher colleges and universities, clinical experiments and routine tests. However, the conventional microscope cannot meet the requirements of microscopic image photographing, video recording, storage, USB, RJ45, HDMI high definition output, and the like, and if the conventional microscope wants to realize the image function, the conventional microscope needs to be configured with a computer and related software, which is high in cost and complicated in operation. In addition, the existing microscope has to be connected with an alternating current power supply during operation, and the outdoor operation cannot be realized.

With the rapid development of electronic products with the advancement of scientific technology, the combination degree of the electronic products with the traditional optical microscope is higher and higher, and the microscope is converted from visual observation to liquid crystal screen observation. The existing Chinese patent publication No. CN203178565U discloses a multifunctional digital liquid crystal microscope, which comprises a microscope main body, a shooting optical system and an image display unit, wherein the image display unit comprises a liquid crystal display screen and an image processing module which are electrically connected with each other, the image processing module is arranged in the microscope main body and is electrically connected with the shooting optical system, and the image processing module receives the information of the shooting optical system and feeds the information back to the image display unit. However, the microscope is low in data transmission speed and large in interface limitation, harmful effects can be caused to the spine when people watch the microscope for a long time, the angle of the display screen cannot be adjusted according to different groups, the microscope is always in a working state when people observe the microscope, power consumption is high, potential safety hazards exist, and the microscope is not matched with the rapid development of electronic products.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned problem, provide an intelligence integral type liquid crystal digital microscope, have concurrently and directly watch and the visual dual mode of watching through the display screen, can avoid long-time eye fatigue, cervical vertebra fatigue and the vertigo of observing that the eyepiece brought, but self-closing power realizes energy-conservingly when nobody watches, and interface function is many, transmission speed is fast, the formation of image is clear, and simple operation, efficient, be applicable to different crowds demands and outdoor operations.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an intelligence integral type liquid crystal digital microscope, including the microscope main part, still include display screen module and circuit board, the circuit board is located the microscope main part, wherein:

the microscope main body is also internally provided with an image sensor and an image processing unit, the circuit board is provided with an HDMI interface, at least one network interface and at least one USB interface, each interface is arranged in an adaptive hole in the side wall of the microscope main body in a penetrating way, the outer side of the side wall of the microscope main body is provided with an antenna, the image sensor is electrically connected with the image processing unit, and the image processing unit and the antenna are electrically connected with the circuit board;

the light-operated induction device and the liquid crystal display window for displaying the working state information are arranged in the base of the microscope main body, and the liquid crystal display window and the light-operated induction device are both arranged in the adaptive hole in the front wall of the base of the microscope main body in a penetrating manner and are electrically connected with the circuit board;

the display screen module comprises a connecting mechanism and a display screen, the display screen is electrically connected with the circuit board, the connecting mechanism comprises a first rotating shaft and a second rotating shaft which are connected with each other, the rotating axes of the first rotating shaft and the second rotating shaft are perpendicular to each other, the microscope main body is fixedly connected with the first rotating shaft, the display screen is fixedly connected with the second rotating shaft, and the display screen rotates around the first rotating shaft or the second rotating shaft when being overturned.

Preferably, a lower light source and a color temperature switching module are further installed in the base of the microscope body, a dimming hand wheel is further installed outside the base of the microscope body, the color temperature switching module is arranged in an adaptive hole in the side wall of the base of the microscope body in a penetrating mode, and the lower light source, the color temperature switching module and the dimming hand wheel are all electrically connected with the circuit board.

Preferably, the lower light source is detachably connected to the microscope body.

Preferably, a position-adjustable upper light source is arranged above the objective table of the microscope body, and the upper light source is connected with one USB interface.

Preferably, the rotation range of the first rotating shaft is 270 °, and the rotation range of the second rotating shaft is 160 °.

Preferably, still be equipped with DC socket, Type-C interface and power master switch on the circuit board, all wear to locate in the adaptation hole on the back lateral wall of microscope main part.

Preferably, the intelligent integrated liquid crystal digital microscope further comprises a fixing plate, the light-operated sensing device is fixed on the fixing plate, and the fixing plate is connected with the microscope body.

Preferably, the switching mechanism protecting cover is sleeved outside the connecting mechanism.

Preferably, the microscope body is internally provided with a mobile power supply.

Preferably, the microscope body is provided with a safety lock on the side of the base.

Compared with the prior art, the beneficial effects of the utility model are that:

1) the high-sensitivity image sensor is adopted, so that the integration level is high, the power consumption is low, the cost is low, the imaging speed is high, and the imaging effect is good;

2) the display screen has two modes of direct viewing and visual viewing, can avoid human body discomfort caused by long-time observation of the ocular lens, can be turned over front and back, left and right, is suitable for observation of different people and outdoor operation, improves the comfort level of an observer, and is convenient to use;

3) the light-operated sensing device is adopted, when the device is operated by no person, the light source is automatically turned off to enter a low-consumption mode, the light source is automatically turned on when an operator enters the sensing area again, and the upper light source and the lower light source are arranged to meet different use requirements;

4) a plurality of functional interfaces are adopted to provide a plurality of image output modes for equipment, a display screen, a projector and the like can be externally connected to realize the large-screen presentation of fine images, the requirement for multiple viewing modes of a microscope is met, and convenience is provided for scientific research and teaching.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a rear view of the present invention;

fig. 3 is a view and a partial sectional view of the display window and the light-operated sensing device according to the present invention;

FIG. 4 is a view of the assembly structure of the adapting mechanism of the present invention;

fig. 5 is a schematic structural diagram of the adapting mechanism of the present invention.

Description of reference numerals: 1. a display screen module; 2. an observation member; 3. a base; 4. a back panel; 5. A liquid crystal display window; 6. a transfer mechanism; 101. a switching mechanism protecting cover; 102. a display screen; 103. a display screen switch; 202. a housing; 203. a first network interface; 204. a first USB interface; 205. a baffle plate; 301. a lower light source; 302. a light adjusting hand wheel; 303. a color temperature switching module; 304. a safety lock; 401. a power supply main switch; 402. an HDMI interface; 403. a second USB interface; 404. a third USB interface; 405. a second network interface; 406. a Type-C interface; 407. a DC outlet; 408. an antenna; 409. a mobile power supply; 410. an upper light source interface; 501. a power line on-off display column; 502. battery operating status bar; 503. a battery power display bar; 504. a lower light source working state bar; 505. an upper or lower light source brightness display bar; 507. a fixing plate; 508. a light-operated sensing device; 509. an upper light source working state bar; 601. a first connection portion; 602. a first rotating shaft; 603. a second rotating shaft; 604. a second connecting portion.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

As shown in fig. 1-5, an intelligent integrated liquid crystal digital microscope includes a microscope main body, and further includes a display screen module 1 and a circuit board, the circuit board is located in the microscope main body, wherein:

the microscope main body is also internally provided with an image sensor and an image processing unit, the circuit board is provided with an HDMI (high-definition multimedia interface) 402, at least one network interface and at least one USB (universal serial bus) interface, each interface is arranged in an adaptive hole on the side wall of the microscope main body in a penetrating way, the outer side of the side wall of the microscope main body is provided with an antenna 408, the image sensor is electrically connected with the image processing unit, and the image processing unit and the antenna 408 are electrically connected with the circuit board;

the display screen module 1 comprises a connecting mechanism 6 and a display screen 102, the display screen 102 is electrically connected with the circuit board, the connecting mechanism 6 comprises a first rotating shaft 602 and a second rotating shaft 603 which are connected with each other, the rotating axes of the first rotating shaft 602 and the second rotating shaft 603 are mutually vertical, the microscope body is fixedly connected with the first rotating shaft 602, the display screen 102 is fixedly connected with the second rotating shaft 603, and the display screen 102 rotates around the first rotating shaft 602 or the second rotating shaft 603 when being overturned.

The microscope comprises a microscope body, a display screen module 1 and a circuit board, wherein the circuit board is located in the microscope body. The microscope main part includes viewing part 2, casing 202 and the base 3 that from top to bottom connects gradually in this embodiment, and the three can be integrated into one piece or split type structure, and the rear side of casing 202 and base 3 is connected with backplate 4.

An image sensor and an image processing unit are arranged in the observation part 2 of the microscope body, the image sensor is electrically connected with the image processing unit, and the image processing unit is electrically connected with the circuit board. The microscope adopts the high-light-sensitive image sensor to acquire information acquired by the microscope main body, feeds back the information processed by the image processing unit to the display screen 102, and presents the traditional mode of watching microscope images through an eyepiece through the display screen 102. The working efficiency is improved, and convenience is provided for digital intelligent teaching, scientific research and work of people.

The circuit board is provided with an HDMI interface 402, at least one network interface and at least one USB interface, each interface is arranged in an adaptive hole in the rear side wall of the microscope body in a penetrating manner, the outer side of the rear side wall of the microscope body is provided with an antenna 408, and the antenna 408 is electrically connected with the circuit board. Specifically, as shown in fig. 2, in this embodiment, the first network interface 203 and the first USB interface 204 are both located in a notch opened on the rear side of the observation component 2 of the microscope main body, the baffle 205 is further disposed on the rear side of the observation component 2, the baffle 205 is pushed up and down to seal or open the notch, so that the interface in the notch is protected or protected from dust, and the baffle 205 is further provided with a limiting boss to avoid separation during sliding. The first network interface 203 is an RJ45 interface, and the first USB interface 204 is a USB2.0 interface, both of which are used to provide a backup interface for output imaging of the internal image sensor. The HDMI interface 402, the second USB interface 403, the third USB interface, and the second network interface 405 are sequentially disposed on the lower portion of the rear backplane 4 from left to right. The HDMI interface 402 can transmit audio and video signals. The second USB interface 403 includes two USB2.0 interfaces arranged side by side up and down, and the third USB interface 404 includes two USB3.0 interfaces arranged side by side up and down, so that the transmission speed is high, and hot plugging and connection of multiple devices are supported. The second network interface 405 is a LAN interface, and is connected to a circuit board to output signals. The ANT antenna 408 provides signals for the wireless output of the microscope, and the antenna 408 is placed on the outer side of the rear backboard 4 of the microscope to prevent the wireless signals from being interfered by metal pieces. An upper light source interface 410 is arranged on the upper part of the backboard 4 and above the stage of the microscope body, and the upper light source interface 410 is a USB2.0 interface.

The images shot by the microscope are connected by the interfaces and are subjected to data transmission, a plurality of functional interfaces are adopted to provide various image output modes for the equipment, the large screen display of fine images can be realized by an external display screen, a projector and the like, the requirement for various viewing modes of the microscope is met, and convenience is provided for scientific research and teaching.

It should be noted that the microscope body may be a microscope device in the related art. Each interface can be arranged or increased or decreased at will according to actual requirements. The circuit boards can be integrated into one circuit board or arranged by adopting a plurality of split circuit boards.

The base of the microscope body is internally provided with a light-operated sensing device 508 and a liquid crystal display window 5 for displaying working state information, and the liquid crystal display window 5 and the light-operated sensing device 508 are both arranged in an adaptation hole on the front wall of the base of the microscope body in a penetrating way and are electrically connected with a circuit board. Install light-operated induction system 508 in the base of microscope main part, light-operated induction system 508 sets up in the top of liquid crystal display window 5, and wears to locate in the adaptation hole on the base antetheca of microscope main part, and the infrared induction of being convenient for, infrared induction are conventional technique, no longer give unnecessary details here. The light-operated sensing device 508 automatically turns off the light source to protect the microscope light source from entering a low-consumption mode when the microscope is unmanned for a long time, so that the service life of the device is prolonged. When the operator enters the sensing area of the photo-controlled sensing device 508 again, the light source is automatically turned on. The microscope is prevented from being in a working state all the time due to the fact that an operator forgets to turn off the power supply, and the function can be turned off manually, such as through a touch screen or key operation.

The liquid crystal display window 5 is used for displaying the operating status information, and specifically, as shown in fig. 3, the power line on-off display column 501, the battery operating status column 502, the battery power display column 503, and the upper or lower light source brightness display column 505 are sequentially arranged from left to right, the lower light source operating status column 504 and the upper light source operating status column 509 are further respectively arranged above and below the battery power display column 503, and the energy-saving display column ECO is further arranged on the liquid crystal display window 5. When the power line on-off display column 501 is bright, it means that the power line is on, when the battery working state column 502 is bright, it means that the battery is in a normal working state, the battery power display column 503 displays the percentage of the battery power, when the lower light source working state column 504 is bright, it means that the lower light source 301 is in a working state, the upper or lower light source brightness display column 505 indicates the brightness of the upper or lower light source, when the upper light source working state column 509 is bright, it means that the upper light source is in a working state, and when the energy saving display column ECO is bright, it means that the photo-control sensing device 508 is turned on. The layout of the operating status information displayed on the lcd 5 can be adjusted arbitrarily according to the actual requirement, such as adjusting the layout position or performing an increase/decrease setting. The operating personnel can watch the working state information of each structure of the microscope at any time through the liquid crystal display window 5, thereby being convenient for quick and accurate operation and improving the efficiency.

Display screen module 1 includes coupling mechanism 6 and display screen 102, and display screen 102 installs in the top of microscope main part, adopts high clear liquid display, and resolution ratio is high, can realize taking a picture, recording a video, measuring, man-machine interaction etc. function, digitizes optical imaging simultaneously, provides powerful basis for scientific research and teaching. The display screen 102 is provided with a display screen switch 103 for controlling the opening or closing of the display screen 102, and the display screen 102 is electrically connected with the circuit board. The connecting mechanism 6 includes a first rotating shaft 602 and a second rotating shaft 603 connected to each other, the rotating axes of the first rotating shaft 602 and the second rotating shaft 603 are perpendicular to each other, and both the first rotating shaft 602 and the second rotating shaft 603 are damping rotating shafts or damping hinges capable of rotating relatively, which is a common technical means for existing computers or display screens and is not described herein again, and the first rotating shaft 602 and the second rotating shaft 603 are fixedly connected, for example, by screw connection or welding. The first shaft 602 and the second shaft 603 can also be assembled as a single component, such as a shaft of model LS-130674 from Reo hardware electronics, Inc. of Dongguan. The observation part 2 of the microscope main body is fixedly connected with the first connecting part 601 of the first rotating shaft 602 through screws, the display screen 102 is fixedly connected with the second connecting parts 604 on two sides of the second rotating shaft 603 through screws, and the display screen 102 rotates around the first rotating shaft 602 or the second rotating shaft 603 to realize left-right or front-back overturning. This equipment has concurrently and directly watches and watch two kinds of modes through the display screen with visualing, can avoid the human discomfort that long-time observation eyepiece brought, and the display screen can overturn all around, is applicable to different crowds and observes, improves observer's comfort level, convenient to use.

In an embodiment, a lower light source 301 and a color temperature switching module 303 are further installed in the base of the microscope body, a dimming handwheel 302 is further installed outside the base of the microscope body, the color temperature switching module 303 is inserted into an adapting hole on the side wall of the base of the microscope body, and the lower light source 301, the color temperature switching module 303 and the dimming handwheel 302 are all electrically connected with the circuit board.

The lower light source 301 and the color temperature switching module 303 are installed in the base of the microscope body, and the dimming handwheel 302 is installed outside the base of the microscope body. The color temperature switching module 303 and the dimming handwheel 302 are both positioned on the right side of the base of the microscope main body, so that the operation is convenient, the dimming handwheel 302 can perform stepless adjustment on the lower light source 301, and when the light source rotates clockwise, the brightness of the light source is increased and decreased reversely. The color temperature switching module 303 is arranged in an adaptive hole in the right side wall of the base of the microscope body in a penetrating manner, and the lower light source 301, the color temperature switching module 303 and the dimming hand wheel 302 are electrically connected with the circuit board. The color temperature switching module 303 can adjust the color of the lower light source 301, for example, the color of the light source is continuously changed between white light and yellow light by rotating the color temperature switching module 303, so that the use requirements of different people are met, and the use range of the product is widened. The positions or the types of the color temperature switching module 303 and the dimming handwheel 302 can be set according to actual requirements.

In one embodiment, the lower light source 301 is removably attached to the microscope body.

The lower light source 301 is detachably connected with the microscope body, for example, through a screw connection or a snap connection, so that the light source is convenient to replace or maintain. The selection and design of the light source are commonly used technical means by those skilled in the art, and are not described herein again.

In one embodiment, an upper light source with adjustable position is arranged above the objective table of the microscope body, and the upper light source is connected with one USB interface.

The upper light source is a bendable light source with a USB interface, which is commercially available, and is connected to the upper light source interface 410 in a pluggable manner, so that the position of the upper light source can be adjusted or the upper light source can be removed when the upper light source is not used. In this embodiment, light source setting about adopting can satisfy different user demands, and a plurality of angles of being convenient for provide the light source illumination. Meanwhile, the dimming hand wheel 302 can control the switching of the lower light source 301 and the lower light source and perform stepless regulation, for example, a conventional switching circuit is adopted for switching, so that multiple functions of one component are met, and the production cost is reduced. It should be noted that the upper light source may also be mounted directly above the stage of the microscope body.

In one embodiment, the first rotating shaft has a rotation range of 270 °, and the second rotating shaft has a rotation range of 160 °.

Wherein, when coupling mechanism 6 made display screen 102 and the stable and reliable connection of microscope main part, realized that display screen 102 overturns 160 around and overturns 270 about with, take the place of traditional microscope observation mode, avoid observing for a long time and cause eyestrain and cervical vertebra fatigue, be applicable to different crowds or visual angle and watch.

In one embodiment, the circuit board further has a DC socket 407, a Type-C interface 406, and a main power switch 401, all disposed through the matching hole on the rear sidewall of the microscope body.

Wherein, DC socket 407, Type-C interface 406 and power master switch 401 all wear to locate in the adaptation hole on the back lateral wall of microscope main part. The power master switch 401 controls the switching of the microscope circuitry. The Type-C interface 406 has a faster transmission speed and a stronger power transmission function. DC outlet 407 provides current and voltage inputs for the microscope and mobile power source 409. In this embodiment, the power main switch 401 is located on the left side of the HDMI interface 402, and the Type-C interface 406 and the DC jack 407 are sequentially arranged from left to right, and are located on the right side of the second network interface 405. It should be noted that the DC socket 407, the Type-C interface 406, and the power main switch 401 may be arranged in any layout or other positions on the microscope body according to actual requirements.

In an embodiment, the intelligent integrated liquid crystal digital microscope further includes a fixing plate 507, the light-operated sensing device 508 is fixed on the fixing plate 507, and the fixing plate 507 is connected to the microscope body.

In this embodiment, the photo sensor 508 is clamped on the fixing plate 507 by a plurality of plastic screws, and the fixing plate 507 is connected to the microscope main body by screws, so as to improve the stability of the photo sensor 508.

In one embodiment, the cover 101 is disposed outside the connection mechanism 6.

Wherein, 6 overcoat of coupling mechanism is equipped with switching mechanism protecting cover 101, and switching mechanism protecting cover 101 can be arbitrary shape, if can pass through bayonet coupling or screw connection with the microscope main part, avoids cable or coupling mechanism 6 to expose outside, improves cable or coupling mechanism 6's life.

In one embodiment, the microscope body has a built-in mobile power supply 409.

Wherein, the built-in portable power source 409 of microscope main part, the design has the groove of installation portable power source 409 in backplate 4, places portable power source 409 in the inslot and carries on spacingly to portable power source 409 through the clamp plate, and the clamp plate is fixed with 4 screwed connection of backplate. Adopt portable power source to be convenient for outdoor operations or the emergency operation when cutting off power supply, can satisfy anytime and anywhere and carry out outdoor real-time observation, reduced the limitation of using. The mobile power supply 409 is a rechargeable lithium battery or a storage battery, and if 12V low-voltage power supply of the lithium battery is adopted, the service life can be 4-6 h.

In one embodiment, the microscope body is provided with a safety lock 304 on the side of the base.

The safety lock 304 is arranged on the right side face of the base of the microscope main body in the embodiment, so that a powerful guarantee is provided for long-term work of the microscope in public places, safety of different crowds in the public places is facilitated, and the microscope is prevented from being lost.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express the more specific and detailed embodiments described in the present application, but not should be interpreted as limiting the scope of the claims of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an intelligence integral type liquid crystal digital microscope, includes the microscope main part, its characterized in that: the intelligent integrated liquid crystal digital microscope further comprises a display screen module (1) and a circuit board, wherein the circuit board is positioned in the microscope body, and the intelligent integrated liquid crystal digital microscope further comprises a display screen module and a circuit board, wherein:

the microscope body is also internally provided with an image sensor and an image processing unit, the circuit board is provided with an HDMI (402), at least one network interface and at least one USB interface, each interface is arranged in an adaptive hole in the side wall of the microscope body in a penetrating manner, the outer side of the side wall of the microscope body is provided with an antenna (408), the image sensor is electrically connected with the image processing unit, and the image processing unit and the antenna (408) are electrically connected with the circuit board;

a light-operated induction device (508) and a liquid crystal display window (5) for displaying working state information are arranged in the base of the microscope body, and the liquid crystal display window (5) and the light-operated induction device (508) are both arranged in an adaptive hole in the front wall of the base of the microscope body in a penetrating manner and are electrically connected with the circuit board;

display screen module (1) includes coupling mechanism (6) and display screen (102), display screen (102) and circuit board electricity are connected, coupling mechanism (6) are including interconnect's first pivot (602) and second pivot (603), the axis of rotation mutually perpendicular of first pivot (602) and second pivot (603), microscope main part and first pivot (602) fixed connection, display screen (102) and second pivot (603) fixed connection, wind during the upset of display screen (102) first pivot (602) or second pivot (603) rotate.

2. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: still install down light source (301) and colour temperature switching module (303) in the base of microscope main part, still install dimming hand wheel (302) outward the base of microscope main part, colour temperature switching module (303) wear to locate in the adaptation hole on the base lateral wall of microscope main part, down light source (301), colour temperature switching module (303) and dimming hand wheel (302) all with the circuit board electricity is connected.

3. The intelligent integrated liquid crystal digital microscope of claim 2, wherein: the lower light source (301) is detachably connected with the microscope body.

4. The intelligent integrated liquid crystal digital microscope according to claim 2 or 3, wherein: an upper light source with adjustable position is arranged above the objective table of the microscope main body and is connected with one USB interface.

5. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: the rotation range of the first rotating shaft is 270 degrees, and the rotation range of the second rotating shaft is 160 degrees.

6. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: still be equipped with DC socket (407), Type-C interface (406) and power master switch (401) on the circuit board, all wear to locate in the adaptation hole on the back lateral wall of microscope main part.

7. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: the intelligent integrated liquid crystal digital microscope further comprises a fixing plate (507), the light-operated sensing device (508) is fixed on the fixing plate (507), and the fixing plate (507) is connected with the microscope body.

8. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: the switching mechanism protecting cover (101) is sleeved outside the connecting mechanism (6).

9. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: the microscope body is internally provided with a mobile power supply (409).

10. The intelligent integrated liquid crystal digital microscope of claim 1, wherein: the side surface of the base of the microscope main body is provided with a safety lock (304).

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