CN208861054U - A kind of fungal spore microscopic image acquisition device that collection point is controllable - Google Patents

Abstract

A kind of fungal spore microscopic image acquisition device that collection point is controllable, including cabinet, objective table is provided in cabinet, the glass slide for being coated with adsorbent is located on objective table, spore trap air-duct apparatus and microscopic imaging device are additionally provided in cabinet, spore trap air-duct apparatus includes the bellows without bottom plate, the acquisition air inlet of air duct of bellows is connected by pipeline with the air inlet on cabinet, the acquisition duct outlet of bellows is connected by pipeline with forced draft fans, bellows bottom is enabled to be adjacent to the glass slide on objective table by the control of stepper motor ten, microscopic imaging device is set to the top of objective table, Image Acquisition is carried out to the micro-image of glass slide miospore thereon.The utility model can realize glass slide different location point spore micro image collection function, to simplify the complexity of device, realize the micro image collection to aerial fungal spore.

Description

A kind of fungal spore microscopic image acquisition device that collection point is controllable

Technical field

The utility model belongs to reading intelligent agriculture and bioscience technology field, in particular to a kind of fungi that collection point is controllable Spore microscopic image acquisition device.

Background technique

The controllable fungal spore microscopic image acquisition device in collection point is a kind of for fungal diseases of plants monitoring and forecast Instrument, be mainly used for remote collection with air borne, the plant pathogenic fungi spore micro-image of infection, and then measure plant Fungal spore quantity in production environment can provide basic data for the prediction of fungal diseases of plants, be to formulate early just True prevention and control strategy and an important evidence for taking control measure.However, due under high-amplification-factor, microscopical visual field Range is very small, if only acquiring the micro-image of a location point on glass slide, it is difficult to reflect fungal spore on glass slide Exact amount；If all areas acquire fungal spore micro-image on traversal glass slide, there are time-consuming, image data amount is huge etc. It is insufficient.

Summary of the invention

In order to overcome the disadvantages of the above prior art, the purpose of this utility model is to provide a kind of controllable true in collection point Bacterium spore microscopic image acquisition device proposes the controllable N number of cross in collection point using on-deformable glass slide as spore trap carrier To the acquisition image method of traversal, the focal length of microscope and objective table is fixed after manually adjusting, and is exported by drive module different Umber of pulse, control the rotation of stepper motor with realize objective table accurately planar movement, it can be achieved that glass slide different location point Spore micro image collection function realizes the micro image collection to aerial fungal spore to simplify the complexity of device.

To achieve the goals above, the technical solution adopted in the utility model is:

A kind of fungal spore microscopic image acquisition device that collection point is controllable, including cabinet 6 are provided with loading in cabinet 6 Platform 2, the glass slide 17 for being coated with adsorbent are located on objective table 2, which is characterized in that are additionally provided with spore trap in cabinet 6 Air-duct apparatus 4 and microscopic imaging device 5, the spore trap air-duct apparatus 4 include the bellows 42 without bottom plate, and bellows 42 are adopted Collection air inlet of air duct 40 is connected by pipeline with the air inlet 9 on cabinet 6, and the acquisition duct outlet 41 of bellows 42 passes through pipeline It is connected with forced draft fans 10, the glass slide 17 enabled on 42 bottom of bellows and objective table 2 is controlled by stepper motor 10 Be adjacent to, the microscopic imaging device 5 is set to the top of objective table 2, to the micro-image of 17 miospore of glass slide thereon into Row Image Acquisition.

The objective table 2 is installed in lead screw guide rails 1, drives lead screw guide rails 1 to make by stepper motor 3 16 Objective table 2 moves in X direction, stepper motor 4 23 is equipped on the objective table 2,4 23 driving objective table 2 of stepper motor is along Y Direction is mobile, is moved in the plane with controlling objective table.Spacer pin 25 and slide limit plate 27 are installed on the objective table 2, Spacer pin 25 is controlled by stepper motor 5 24, and when smearing spore adsorbent, stepper motor 5 24 pushes spacer pin 25 to block load Slide 17, slide limit plate 27 are controlled by stepper motor 6 28, push glass slide 17 to fall into back it after acquiring image It receives in box.

The microscopic imaging device 5 is fixed after manually adjusting microscopical focal length by bolt, and it is controllable to propose collection point N number of acquisition image method laterally traversed, 17 lower left corner of glass slide be acquisition starting point, the upper right corner is terminal, passes through drive Dynamic model block exports different umber of pulses, controls the rotation of stepper motor to realize the accurately planar movement of objective table 2, is carried with acquiring The uredospore micro-image of different coordinate points on slide 17, realizes and carries out automatically to the micro-image of 17 different location point of glass slide Acquisition.

The microscopic imaging device 5 includes microscope digital camera 43, lens barrel 44 and object lens 45, the microscope digital Camera 43 is connected by USB data line with built-in industrial control machine, receives the image pick-up signal issued from industrial personal computer at any time, 100~400 multiples can be amplified by lens barrel 44 and object lens 45, capture the micro-image of fungal spore on the glass slide 17.

The bellows 42 are mounted in lead screw guide rails 5 39, are driven by stepper motor 10 and are transported along about 5 39 lead screw guide rails Dynamic, the acquisition air inlet of air duct 40 is located at the top of bellows 42, and acquisition duct outlet 41 is located at the side of bellows 42.

Microscopic imaging device 5 described in the 2 lower section face of objective table is equipped with microscope light source 12,6 top of cabinet Solar energy electroplax 14, and 14 tilt adjustable section of solar energy electroplax, inside setting battery 13, battery 13 and the sun are set Energy battery plate 14, which is connected, is powered using acquiring clean solar energy as whole device.

Each motor is controlled using built-in industrial control machine, industrial personal computer is packaged in the cabinet 6, passes through USB interface and nothing Line communication module is connected, and realizes the tele-video transmission of acquisition device, while receiving the control command signal from server end, And according to the signal of server end, starting or each motion module of emergency stop.

The utility model additionally provides the acquisition using the controllable fungal spore microscopic image acquisition device in the collection point Method is controlled using built-in industrial control machine, which comprises the steps of:

Step S1: the glass slide 17 for smearing adsorbent is placed on objective table 2, is run stepper motor 5 24, is utilized limit Position 25 clamping glass slide 17 of pin；

Step S2: operation stepper motor 3 16 and stepper motor 4 23, mobile glass slide 17 arrive spore trap air-duct apparatus 4 At position, the operation of spore trap air-duct apparatus 4 is adjacent to 42 bottom of bellows with glass slide 17, while opening forced draft fans 10；

Step S3: capturing fungal spore time range is 2~24 hours, sets pull-in time by actual demand；

Step S4: after capture, forced draft fans 10 are closed, run stepper motor 3 16 and stepper motor 4 23, carry glass 17 level of piece is transported at micro-imaging position 5, opens microscope light source 12；

Step S5: operation stepper motor 3 16 and stepper motor 4 23, to acquire on glass slide 17 on different location point Spore micro-image, while starting microscope digital camera 43 and acquiring image is laterally traversed according to controllable N number of in collection point Image method is acquired, 17 lower left corner of glass slide is acquisition starting point, and the upper right corner is terminal, is exported by drive module different Umber of pulse controls the rotation of stepper motor 3 16 and stepper motor 4 23 to realize the accurately planar movement of objective table 2, and acquisition carries The uredospore micro-image of different coordinate points on slide 17, realizes and carries out automatically to the micro-image of 17 different location point of glass slide Acquisition.

Step S6: industrial personal computer stores image data in a hard disk, while carrying out image remote transmission by wireless network To server end；

Step S7: closing microscope light source 12, and glass slide 17 is transported to recovery position by the control movement of stepper motor 6 28 It abandons, terminates acquisition.

Compared with prior art, the utility model has the following beneficial effects:

The utility model provides a kind of fungal spore microscopic image acquisition device that collection point is controllable, with on-deformable Glass slide is spore trap carrier, and different umber of pulses is exported by drive module, controls the rotation of stepper motor to realize and carry Accurately planar movement to acquire the uredospore micro-image of different location point on glass slide solves traversal glass slide to object platform Upper all areas acquisition image simplifies the complexity of device there are the deficiency that time-consuming, image data amount is huge etc., realizes pair The micro image collection of aerial fungal spore.It is aobvious with the plant pathogenic fungi spore of air borne, infection to can be used for remote collection Micro- image, and then the fungal spore quantity in plant production environment is measured, base can be provided for the prediction of fungal diseases of plants Plinth data are to formulate correct prevention and control strategy early and take an important evidence of control measure.

Detailed description of the invention

Fig. 1 is the utility model objective table schematic diagram.

Fig. 2 is that the utility model acquires air-duct apparatus schematic diagram.

Fig. 3 is the utility model microscopic imaging device schematic diagram.

Fig. 4 is the utility model glass slide different location point micro-image automatic collection schematic diagram.

Fig. 5 is the uredospore micro-image schematic diagram of the utility model acquisition.

Fig. 6 is each modular structure schematic diagram of device in the utility model embodiment.

Fig. 7 is device for mechanical agent structure schematic diagram in the utility model embodiment.

Fig. 8 is glass slide slice getting device schematic diagram in the utility model embodiment.

Fig. 9 is greasing device schematic diagram in the utility model embodiment.

Figure 10 is the utility model embodiment medium-long range acquisition device software workflow figure.

Specific embodiment

It is with reference to the accompanying drawing and detailed as embodiment to acquire puccinia striiformis uredospore, spore adsorbent selection vaseline Describe bright the embodiments of the present invention in detail.

A kind of uredospore microscopic image acquisition device that collection point is controllable of the utility model, including cabinet 6 are set in cabinet 6 It is equipped with objective table 2, the glass slide 17 for being coated with vaseline is located on objective table 2, and with reference to Fig. 1, objective table 2 is installed on lead screw guide rails On one 15, drives lead screw guide rails 1 that objective table 2 is moved in X direction by stepper motor 3 16, be equipped on objective table 2 Stepper motor 4 23,4 23 driving objective table 2 of stepper motor are moved along Y-direction, and spacer pin 25 and slide are equipped on objective table 2 Limit plate 27, spacer pin 25 is controlled by stepper motor 5 24, and when smearing vaseline, stepper motor 5 24 pushes spacer pin 25 to block Firmly glass slide 17, slide limit plate 27 are controlled by stepper motor 6 28, push glass slide 17 to fall it after acquiring image Enter in recycling box.

6 lower part of cabinet is configured bolt screw hole 7 and universal wheel 8, and spore acquisition 4 He of air-duct apparatus is additionally provided in cabinet 6 Microscopic imaging device 5.

With reference to Fig. 2, spore trap air-duct apparatus 4 includes the bellows 42 without bottom plate, the acquisition air inlet of air duct of bellows 42 40 are connected by pipeline with the air inlet 9 on cabinet 6, and air inlet 9 is provided with gauze, and the acquisition duct outlet 41 of bellows 42 is logical Pipeline is crossed to be connected with forced draft fans 10.Bellows 42 are mounted in lead screw guide rails 5 39, are driven by stepper motor 10 and are led along lead screw Rail 5 39 moves up and down, and acquisition air inlet of air duct 40 is located at the top of bellows 42, and acquisition duct outlet 41 is located at bellows 42 Side.

Spore trap air-duct apparatus 4 uses right angle Duct design, makes the air-flow containing spore in glass slide 17 and bellows 35 It comes into full contact with so that it sticks more spores.When the bottom of bellows 35 and glass slide 17 are adjacent to, outer gas stream and cabinet can be made Internal insulation prevents outside air pollution interior arrangement.Meanwhile also air duct interior air-flow size can be controlled by forced draft fans 10.

When starting to acquire spore, the starting of stepping stepper motor 10 drives the rotation of lead screw guide rails 5 39 under bellows 42 Drop, is adjacent to 42 bottom of bellows with glass slide 17 and stops, and forced draft fans 10 start at this time, forms negative pressure in air duct, is mingled with The air of spore is sucked from air inlet 9, is discharged from air outlet 11, and the spore in air is as air-flow moves in bellows 42 and carries Slide 17 collides and sticks thereon.

With reference to Fig. 3, microscopic imaging device 5 is set to the top of objective table 2, to the micro- of 17 miospore of glass slide thereon Image carries out Image Acquisition.Microscopic imaging device 5 includes microscope digital camera 43, lens barrel 44 and object lens 45, microscope number Word camera 43 is connected by USB data line with built-in industrial control machine, receives the Image Acquisition letter issued from industrial personal computer at any time Number, 100~400 multiples can be amplified by lens barrel 44 and object lens 45 according to the size of uredospore, capture allergenic on glass slide 17 The micro-image of son.Built-in industrial control machine and circuit module are loaded into cabinet 6.Acquisition device is mentioned using the battery 13 of 12V Power supply source, battery 13 is connected with solar energy electroplax 14 is powered using acquiring clean solar energy as whole device.

The microscopic imaging device 5 is fixed after manually adjusting microscopical focal length by bolt, and it is controllable to propose collection point N number of acquisition image method laterally traversed, 17 lower left corner of glass slide be acquisition starting point, the upper right corner is terminal, passes through drive Dynamic model block exports different umber of pulses, controls the rotation of stepper motor to realize the accurately planar movement of objective table 2, is carried with acquiring The uredospore micro-image of different coordinate points on slide 17, realizes and carries out automatically to the micro-image of 17 different location point of glass slide Acquisition.

2 lower section face microscopic imaging device 5 of objective table is equipped with microscope light source 12, and solar-electricity is arranged at the top of cabinet 6 Plate 14, and 14 tilt adjustable section of solar energy electroplax, inside setting battery 13, battery 13 are connected with solar energy electroplax 14 It is powered using acquiring clean solar energy as whole device.

The utility model integrally uses built-in industrial control machine to control each motor, and module receives server by wireless communication The control instruction at end, wireless communication module and camera are connect with built-in industrial control machine by USB line, drive module and I/O mould Block connect realization signal transmission with built-in industrial control machine by communicating 485 buses, and drive module passes through pwm signal and adjusts driving core Piece exports different pulse numbers, to realize the movement of motor module, limit switch connect control motor with drive module and opens Stop, I/O module is connected with forced draft fans and control module, and control module is led to using the PT4115 chip of output current adjustment The pwm signal for crossing output different duty adjusts output electric current, to realize that the stabilization of microscope light source luminous intensity is quantitatively adjusted Section.Solar powered module is each module for power supply of device.

Industrial personal computer is packaged in cabinet 6, is connected by USB interface with wireless communication module, is realized the long-range of acquisition device Image transmitting, while the control command signal from server end is received, and according to the signal of server end, starting or emergency stop are each A motion module, control acquisition method include the following steps:

Step S1: the glass slide 17 for smearing vaseline is placed on objective table 2, is run stepper motor 5 24, is utilized limit Position 25 clamping glass slide 17 of pin；

Step S2: operation stepper motor 3 16 and stepper motor 4 23, mobile glass slide 17 arrive spore trap air-duct apparatus 4 At position, the operation of spore trap air-duct apparatus 4 is adjacent to 42 bottom of bellows with glass slide 17, while opening forced draft fans 10；

Step S3: capturing uredospore time range is 2~24 hours, sets pull-in time by actual demand；

Step S4: after capture, forced draft fans 10 are closed, run stepper motor 3 16 and stepper motor 4 23, carry glass 17 level of piece is transported at micro-imaging position 5, opens microscope light source 12；

Step S5: operation stepper motor 3 16 and stepper motor 4 23, to acquire on glass slide 17 on different location point Spore micro-image, while starting microscope digital camera 43 and acquiring image is laterally traversed according to controllable N number of in collection point Image method is acquired, 17 lower left corner of glass slide is acquisition starting point, and the upper right corner is terminal, is exported by drive module different Umber of pulse controls the rotation of stepper motor (16 and 23) to realize the accurately planar movement of objective table 2, to acquire on glass slide 17 The uredospore micro-image of different coordinate points is realized and carries out automatic collection to the micro-image of 17 different location point of glass slide.

With reference to Fig. 4, the workflow step of the present embodiment is as follows: being the region 50cm × 25cm in the middle size of glass slide Micro-image is acquired, the umber of pulse size for being converted into stepper motor is 20000 umber of pulses × 10000 umber of pulses.Lower left corner dot To acquire starting point, the dot in the upper right corner is terminal, and different umber of pulses is exported by drive module, controls the rotation of stepper motor To realize objective table accurately planar movement, to acquire the uredospore micro-image of different coordinate points on glass slide.Collection point it Between umber of pulse spacing (x, y) can be set according to user demand.The present embodiment sets x, y-axis umber of pulse spacing is respectively 5000, First image is acquired from the off, the image on dot is successively acquired according to arrow direction, completes Image Acquisition to terminal, 12 are acquired altogether, and the image of acquisition is as shown in Figure 5.

Step S6: industrial personal computer stores image data in a hard disk, while carrying out image remote transmission by wireless network To server end；

Step S7: closing microscope light source 12, and glass slide 17 is transported to recovery position by the control movement of stepper motor 6 28 It abandons, terminates acquisition.

Further, the utility model may also include glass slide slice getting device 1 and greasing device 3, with reference to Fig. 6, Fig. 7, carry Slide slice getting device 1 and greasing device 3 are mounted in cabinet 6.The aerial uredospore of glass slide-fat liquoring-is taken to adopt to be automatically performed The operating functions such as collection-spore micro image collection-recycling glass slide.

With reference to Fig. 8, glass slide slice getting device 1 includes the valut 18 for placing glass slide 17, and the bottom of valut 18 is hanging, When device 1 is run, stepper motor 1 drives push jack plate 19 to travel forward first and acts on overhead positions, pushes in valut 18 Glass slide 17 be moved on slide plate plate 22, stepper motor 2 21 drives slide plate plate 22 to be tilted a certain angle and makes glass slide 17 at this time It slides into the slide slot 26 on objective table 2.

With reference to Fig. 9, greasing device 3 includes the lead screw guide rails 3 33 and lead screw of lateral lead screw guide rails 2 32 and two longitudinal directions Guide rail 4 34, gluing head 35 are arranged in lead screw guide rails 3 33, and the rear of gluing head 35 is provided with glue box 36, lead screw guide rails 3 33 It is mounted in lead screw guide rails 2 32, scraper blade 37 is arranged in lead screw guide rails 4 34, and stepper motor 7 29 controls 35 edge of gluing head Lead screw guide rails 3 33 move up and down, and stepper motor 9 30 controls lead screw guide rails 3 33 along 2 32 horizontal movement of lead screw guide rails, stepping Motor 8 31 controls scraper blade 37 and moves up and down along lead screw guide rails 4 34, acquires for vaseline to be uniformly applied to glass slide 17 Region.

The controllable uredospore microscopic image acquisition device in collection point provided by the utility model, valut 18 use vertical stacking Storage, maximum can store glass slide 100, for acquisition device continuously in field field long-time remote collection spore picture number According to.

The controllable uredospore microscopic image acquisition device in collection point provided by the utility model, acquisition device need for a long time in ring The more severe field field work in border, it is contemplated that dust-proof, waterproof and moistureproof requirement is needed, using 304 stainless steel materials, Cabinet 6 is designed to the sealing structure cabinet with door, prevents cabinet corrosion from cabinet leak being caused to damage internal unit, cabinet The air inlet 9 at top is provided with gauze.The device that long-term field uses is also contemplated that wind force proofing design, so the bottom of box is reserved with Ground bolt screw hole, lower margin is fixed when convenient for needing.

As shown in Figure 10, the workflow step of the present embodiment is as follows:

Step S1: industrial personal computer powers on, and software starts automatically, establishes the link with server end；

Step S2: System self-test successively sends instruction of shaking hands to drive module, receives feedback command, sends to I/O module Instruction receives feedback command, reads microscope digital camera 43 and parameter (time for exposure, gain) is arranged, and detection camera is It is no working properly；

Step S3: self-test is completed, micro- to server end sending device state: drive module state, I/O module status 43 parameter of mirror digital camera (time for exposure, gain)；

Step S4: reset each motion module by limit switch, the acquisition instructions at waiting for server end；

Step S5: receiving acquisition instructions, and glass slide slice getting device 1 is run, and takes out glass slide 17；

Step S6: objective table 2 is moved to the left, and glass slide 17 is transported at greasing device 3 and uniformly smears vaseline；

Step S7: objective table 2 is moved to the left, and 17 level of glass slide is transported at spore acquisition air duct position 4, spore trap The operation of air-duct apparatus 4 is adjacent to 42 bottom of bellows with glass slide 17, while opening forced draft fans；

Step S8: it captures uredospore and is set as 2 hours；

Step S9: after capture, forced draft fans 10 are closed, objective table 2 is moved to the left, and 17 level of glass slide is transported to aobvious At micro- imaging position 5, microscope light source 12 is opened；

Step S10: control 2 plane motion of objective table, it is micro- to acquire uredospore on glass slide 17 on different location point Image, while starting microscope digital camera 43 and acquiring micro-image；

Step S11: industrial personal computer stores image data in a hard disk, while carrying out image remote transmission by wireless network To server end；

Step S12: closing microscope light source 12, and glass slide 17 is transported to recovery position by the control movement of stepper motor 6 28 It abandons, terminates acquisition.Circulation step S2~S12 exchanges glass slide for automatically, applies vaseline, spore trap, micro-imaging and image The functions such as remote transmission.Realization, which is automatically performed, takes glass slide-fat liquoring-air spore acquisition-spore micro image collection and remote Journey transmit-recycles the functions such as glass slide.

Above content is only illustrate to examples for clearly illustrating the present invention described in this specification.The utility model Those skilled in the art can do various modifications or supplement to described specific embodiment or replace by a similar method Generation, the content illustrated without departing from the utility model or beyond the scope defined by this claim should belong to The protection scope of the utility model.

Claims (7)

1. a kind of fungal spore microscopic image acquisition device that collection point is controllable, including cabinet (6), cabinet are provided with load in (6) Object platform (2), the glass slide (17) for being coated with adsorbent are located on objective table (2), which is characterized in that also set up in cabinet (6) There are spore trap air-duct apparatus (4) and microscopic imaging device (5), the spore trap air-duct apparatus (4) includes without bottom plate The acquisition air inlet of air duct (40) of bellows (42), bellows (42) is connected by pipeline with the air inlet (9) on cabinet (6), bellows (42) acquisition duct outlet (41) is connected by pipeline with forced draft fans (10), can by stepper motor ten (38) control So that bellows (42) bottom is adjacent to the glass slide (17) on objective table (2), the microscopic imaging device (5) is set to objective table (2) top carries out micro image collection to glass slide (17) miospore thereon.

2. the controllable fungal spore microscopic image acquisition device in collection point according to claim 1, which is characterized in that the load Object platform (2) is installed in lead screw guide rails one (15), makes objective table by stepper motor three (16) driving lead screw guide rails one (15) (2) it moves in X direction, stepper motor four (23), stepper motor four (23) driving objective table is installed on the objective table (2) (2) it is moved along Y-direction, spacer pin (25) and slide limit plate (27) is installed, spacer pin (25) is by step on the objective table (2) It is controlled into motor five (24), when smearing spore adsorbent, stepper motor five (24) pushes spacer pin (25) to block glass slide (17), slide limit plate (27) is controlled by stepper motor six (28), pushes glass slide (17) to fall it after acquiring image Enter in recycling box.

3. the controllable fungal spore microscopic image acquisition device in collection point according to claim 1, which is characterized in that described aobvious Micro- imaging device (5) is fixed after manually adjusting microscopical focal length by bolt, and glass slide (17) lower left corner is to acquire Point, the upper right corner are terminal, and different umber of pulses is exported by drive module, control the rotation of stepper motor to realize objective table (2) accurately planar movement, the uredospore micro-image of different coordinate points, is realized to glass slide (17) in acquisition glass slide (17) The micro-image of different location point carries out automatic collection.

4. the controllable fungal spore microscopic image acquisition device in collection point according to claim 1, which is characterized in that the wind Case (42) is mounted in lead screw guide rails five (39), is driven by stepper motor ten (38) and is moved up and down along lead screw guide rails five (39), institute The top that acquisition air inlet of air duct (40) is located at bellows (42) is stated, acquisition duct outlet (41) is located at the side of bellows (42).

5. the controllable fungal spore microscopic image acquisition device in collection point according to claim 1, which is characterized in that described aobvious Micro- imaging device (5) includes microscope digital camera (43), lens barrel (44) and object lens (45), the microscope digital camera (43) it is connected by USB data line with built-in industrial control machine, receives the image pick-up signal issued from industrial personal computer at any time, pass through Lens barrel (44) and object lens (45) can amplify 100~400 multiples, capture the micro-image of fungal spore on the glass slide (17).

6. the controllable fungal spore microscopic image acquisition device in collection point according to claim 1, which is characterized in that the load Microscopic imaging device (5) described in face is equipped with microscope light source (12) below object platform (2), is arranged too at the top of the cabinet (6) It is positive can battery plate (14), and solar energy electroplax (14) tilt adjustable section, inside setting battery (13), battery (13) and too Positive energy battery plate (14), which is connected, to be powered using acquiring clean solar energy as whole device.

7. the controllable fungal spore microscopic image acquisition device in collection point according to claim 1, which is characterized in that using embedding Enter formula industrial personal computer and control each motor, industrial personal computer is packaged in the cabinet (6), passes through USB interface and wireless communication module phase Even, it realizes the tele-video transmission of acquisition device, while receiving the control command signal from server end, and according to server The signal at end, starting or each motion module of emergency stop.