CN115436372A - Artificial intelligence detection device for environmental protection and detection method thereof - Google Patents

Abstract

The invention provides an artificial intelligence detection device for environmental protection and a detection method thereof, which relate to the field of environmental detection and comprise the following steps: the mount pad, the mount pad is cylindricly, the mount pad front side is provided with dismantlement platform, the mount pad left side is provided with loading platform, the mount pad top is rotated and is connected with the carousel, the welding has the glass carrier on the carousel lateral wall, glass carrier bottom sliding connection has fixed sloping block, rotate in the mount pad top rear end terminal surface and be connected with the driver plate, drive worm through servo motor drives driven worm wheel and rotate, driven worm wheel drives the driver plate and rotates, the driver plate stirs the sheave through the driving lever and rotates, so that carry out intermittent type through sheave control carousel and rotate, thereby when the carousel rotates at every turn, the dismantlement of slide glass is carried out to the time of realizing detecting the water sample on the slide glass, the work of installation and loading water sample, make four steps go on simultaneously, be convenient for improve detection efficiency, save the water sample manual work, it is low to have solved when detecting step by step, the problem of waste time length.

Description

Artificial intelligence detection device and detection method for environmental protection

technical field

The invention relates to the technical field of environmental detection, in particular to an artificial intelligence detection device for environmental protection and a detection method thereof.

Background technique

Environmental detection device is a general term for instruments used to monitor various parameters of indoor and outdoor environments. By measuring the representative values of factors affecting environmental quality, the environmental quality and its changing trend can be determined. With the rapid development of industry, water quality testing has always been the focus of environmental testing, especially in various chemical factories, which need to be monitored through testing devices. Perform real-time detection.

However, as far as the existing artificial intelligence detection devices and detection methods for environmental protection are concerned, when water samples are detected, the collected water samples need to be extracted from the vessel through a straw, and then applied to the glass On-chip, each step requires a time interval, resulting in poor consistency, which is not suitable for large-scale water sample detection, resulting in low detection efficiency.

Contents of the invention

In view of this, the present invention provides an artificial intelligence detection device for environmental protection and a detection method thereof, which has a turntable. When the turntable rotates to the dismounting platform through the glass carrier carrying the slides, the draw hook at the bottom of the fixed inclined block slides to the unloading platform. On the guide rod, as the hook reaches the lowest point of the unloading guide rod, the fixing of the fixed inclined block to the glass slide is released, and the slide glass is ejected from the glass rack under the action of the unloading spring and slides to the disassembly platform, thereby increasing It is convenient to disassemble the used slides, and store the slides on the disassembly platform. When the slides are rotated to the loading platform, the electric cylinder pushes the push plate to place the slides on the loading platform. The glass slides are placed in the glass rack, so as to improve the replacement efficiency of the glass slides and reduce the trouble of replacement.

The invention provides the purpose and efficacy of an artificial intelligence detection device for environmental protection and a detection method thereof, specifically comprising: a mounting seat, the mounting seat is cylindrical, a disassembly platform is provided on the front side of the mounting seat, and a loading platform is provided on the left side of the mounting seat. There is a support frame on the rear side of the mounting seat, a column on the right side of the mounting seat, a microscope on the top of the column, a turntable connected to the top of the mounting seat, a glass carrier welded on the outer wall of the turntable, and a sliding connection on the bottom of the glass carrier. The inclined block is fixed, the glass slide is clipped in the glass carrier, the dial is rotatably connected to the rear end surface of the top of the mounting base, and the servo motor is installed in the rear outer wall of the mounting base.

Further, a gap of one millimeter is provided between the top end surface of the disassembly platform and the bottom end surface of the glass carrier, and a concave unloading guide rod is welded on the rear side wall of the disassembly platform, and the unloading guide rod is slidably connected to the pull hook at the bottom of the fixed inclined block .

Further, an electric cylinder is installed on the top of the left outer wall of the loading platform, and a push plate is connected to the telescopic end of the electric cylinder, and the push plate is slidably connected to the top end surface of the loading platform, and an empty glass slide is placed on the top end surface of the loading platform.

Further, a threaded rod is threaded on the left side of the top of the support frame, the top of the threaded rod is conical, and six leakage holes are arranged in a circular array in the tapered side wall of the top of the threaded rod, and the bottom of the threaded rod is connected to a solenoid valve, and the electromagnetic valve is connected to the bottom of the threaded rod. The bottom of the valve is connected with a tapered water outlet, and the water outlet is located on the top of the glass carrier.

Further, the bottom of the turntable is provided with a sheave, the bottom of the sheave is connected with a counterweight seat, and the counterweight seat is rotatably connected to the top end surface of the mounting seat, the rear side of the sheave is slidably connected with the lever on the top of the dial, and the sheave and The dial constitutes an intermittent rotation mechanism, and a driven worm gear is arranged at the bottom of the dial, and the driven worm gear is meshed and connected with the driving worm at the front end of the servo motor.

Further, the glass carrier is welded on the outer side wall of the turntable in an annular array, the glass carrier is provided with a round hole penetrating up and down, and a T-shaped card slot is opened in the side wall of the round hole connecting the glass carrier and the turntable, and the T Two unloading springs are connected on the side wall of the T-shaped card slot. The bottom of the T-shaped card slot is slidingly connected with fixed inclined blocks. The bottoms of both sides of the fixed inclined block are provided with support springs, and the bottom of the fixed inclined block is provided with semi-open drag hooks.

Further, the slide glass is in a circular shape, and the slide glass is connected in the T-shaped slot of the glass carrier through a connecting block, the right side wall of the connecting block is elastically connected with the unloading spring, and the connecting block of the glass slide The bottom is provided with a fixed slot, and the fixed slot is connected with the top of the fixed inclined block.

The detection method of the environmental protection artificial intelligence detection device disclosed by the present invention comprises the following steps:

1) First, the driving worm of the servo motor drives the driven worm wheel to rotate, and the driven worm wheel drives the dial to rotate, and the dial rotates the sheave through the lever, so that the turntable can be controlled intermittently by the sheave, so that the turntable rotates every time When rotating, it realizes the work of removing, installing and loading water samples on the glass slide while detecting the water sample on the glass slide;

2) The slides need to be placed on the loading platform first, and the electric cylinder pushes the push plate to place the slides in the rack;

3) With the rotation of the turntable, the glass slide comes to the bottom of the solenoid valve, and the water sample in the water sample container placed on the leaking hole on the top of the threaded rod is conveniently exported through the solenoid valve, so that the water sample drops onto the glass slide , through the solenoid valve to precisely release the water sample on the glass slide, so as to improve the accuracy of water sample release and reduce manual control;

4) With the rotation of the turntable, the glass slide brings the water sample to the microscope, and observes and detects the water sample on the glass slide through the microscope;

5) The tested slides come to the unloading platform. When the turntable rotates to the unloading platform with the slides carried by the glass rack, the hook at the bottom of the fixed inclined block slides onto the unloading guide rod, and as the hook reaches the unloading At the lowest point of the guide rod, release the fixation of the slide by the fixed slant block, and the slide will pop out from the rack under the action of the unloading spring and slide to the disassembly platform, thereby increasing the convenience of dismounting the used slide stability, and store the slides on the disassembly platform.

Beneficial effect

According to various embodiments of the present invention, the artificial intelligence detection device for environmental protection and the detection method thereof drive the driven worm wheel to rotate through the driving worm of the servo motor, and the driven worm wheel drives the dial to rotate, and the dial moves the sheave to rotate through the lever. In order to control the turntable to rotate intermittently through the groove wheel, so that when the turntable rotates each time, the work of disassembling, installing and loading water samples on the glass slide is realized at the same time as the detection of the water sample on the slide glass, so that the four steps can be carried out at the same time , which is convenient to improve the detection efficiency and save labor, and when the glass slide is clamped in the glass carrier, the fixed slot at the bottom of the glass slide is connected with the top of the fixed inclined block, and the fixed inclined block is connected to the slide by two supporting springs. Fix it to prevent the slides from being thrown out when the turntable is rotating, and better improve the firmness of the slides.

In addition, the water sample in the container containing the water sample can be exported by setting a taper leak hole on the top of the threaded rod, and the amount of water dripping on the glass slide can be conveniently controlled through the solenoid valve, and the slide can be precisely controlled by the solenoid valve. Release water samples in order to improve the accuracy of water sample release and reduce manual control.

In addition, when the turntable rotates to the unloading platform with the slides carried by the slide rack, the hook at the bottom of the fixed slant block slides onto the unloading guide rod. Under the action of the unloading spring, the glass slide pops out from the glass rack and slides onto the disassembly platform, thereby increasing the convenience of dismantling the used glass slide and allowing the slide to be stored on the disassembly platform. When the slide rack rotates to the loading platform, by placing the slide on the loading platform, the electric cylinder pushes the push plate to place the slide into the slide rack, so as to improve the replacement efficiency of the slide and reduce the trouble of replacement degree.

Description of drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the accompanying drawings of the embodiments will be briefly introduced below.

The drawings in the following description only relate to some embodiments of the present invention, but do not limit the present invention.

In the attached picture:

Fig. 1 is a schematic diagram of the rear right axial view of an artificial intelligence detection device for environmental protection according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of the rear left axial view of the artificial intelligence detection device for environmental protection according to the embodiment of the present invention.

Fig. 3 is a schematic structure diagram of an overall disassembled front right axial view of an artificial intelligence detection device for environmental protection according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of the enlarged structure at A in Fig. 3 of the artificial intelligence detection device for environmental protection according to the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of an artificial intelligence detection device for environmental protection according to an embodiment of the present invention, when it is disassembled and viewed from the left front side.

Fig. 6 is a schematic diagram of the enlarged structure at B of Fig. 5 of the artificial intelligence detection device for environmental protection according to the embodiment of the present invention.

Fig. 7 is a schematic diagram of the removal structure of the turntable of the artificial intelligence detection device for environmental protection according to the embodiment of the present invention.

Fig. 8 is a cross-sectional schematic diagram of the mounting base of the artificial intelligence detection device for environmental protection according to the embodiment of the present invention.

Fig. 9 is a schematic diagram of a cutaway structure of a dial of an artificial intelligence detection device for environmental protection according to an embodiment of the present invention.

Fig. 10 is a schematic diagram of a cutaway structure of a turntable of an artificial intelligence detection device for environmental protection according to an embodiment of the present invention.

List of reference signs

1. Mounting seat; 101. Column; 102. Microscope; 2. Disassembly platform; 201. Unloading guide rod; 3. Loading platform; 4. Support frame; 5. Threaded rod; 501. Leakage hole; 6. Solenoid valve; 7 , electric cylinder; 701, push plate; 8, turntable; 801, sheave; 802, counterweight seat; 9, glass carrier; 901, T-shaped card slot; 11. Unloading spring; 12. Fixed inclined block; 1201. Support spring; 1202. Pull hook; 13. Dial plate; 1301. Shift lever; 1302. Driven worm gear; 14. Servo motor; .

detailed description

In order to make the purpose, solution and advantages of the technical solution of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the drawings of specific embodiments of the present invention. Unless otherwise specified, terms used herein have their ordinary meanings in the art. The same reference numerals in the figures represent the same parts.

Embodiment: Please refer to Fig. 1 to Fig. 10 as shown:

The invention provides an artificial intelligence detection device for environmental protection and a detection method thereof, comprising a mounting base 1, the mounting base 1 is cylindrical, a dismounting platform 2 is provided on the front side of the mounting base 1, and a loading platform 3 is provided on the left side of the mounting base 1. The support frame 4 is arranged on the rear side of the seat 1, the right side of the mounting seat 1 is provided with a column 101, the top of the column 101 is provided with a microscope 102, the top of the mounting seat 1 is rotatably connected with a turntable 8, and the outer wall of the turntable 8 is welded with a glass carrier 9, The bottom of the glass carrier 9 is slidably connected with a fixed inclined block 12, the slide glass 10 is clamped in the glass carrier 9, a dial 13 is rotatably connected to the rear end surface of the top of the mounting seat 1, and a dial 13 is installed in the rear outer wall of the mounting seat 1. servo motor 14.

Wherein, a gap of one millimeter is arranged between the top end surface of the dismounting platform 2 and the bottom end surface of the glass carrier 9, and a concave unloading guide rod 201 is welded on the rear side wall of the dismounting platform 2, and the unloading guide rod 201 is slidably connected to the bottom of the fixed inclined block 12 in the pull hook 1202.

Wherein, an electric cylinder 7 is installed on the top of the outer wall on the left side of the loading platform 3, and the telescopic end of the electric cylinder 7 is connected with a push plate 701, and the push plate 701 is slidably connected to the top end surface of the loading platform 3. Slide 10.

With the above-mentioned technical scheme, when the turntable 8 rotates to the dismounting platform 2 by carrying the glass slide 10 through the glass carrier 9, the drag hook 1202 at the bottom of the fixed inclined block 12 slides onto the unloading guide rod 201, and as the drag hook 1202 reaches the unloading guide rod At the lowest point of 201, the fixation of the fixed inclined block 12 to the slide glass 10 is released, and the slide glass 10 is ejected from the slide rack 9 under the action of the unloading spring 11 and slides onto the dismounting platform 2, thus increasing the used load. The convenience of dismounting the glass slide 10, and making the slide glass 10 stored on the disassembly platform 2, when the glass slide frame 9 rotates to the loading platform 3, by placing the glass slide 10 on the loading platform 3, the electric cylinder 7 pushes The push plate 701 places the slide glass 10 into the slide glass rack 9, so as to improve the replacement efficiency of the slide glass 10 and reduce the trouble of replacement.

Among them, the left side of the top of the support frame 4 is threaded with a threaded rod 5, the top of the threaded rod 5 is tapered, and six leak holes 501 are provided in a circular array in the tapered side wall of the top of the threaded rod 5, and the bottom of the threaded rod 5 is connected to the electromagnetic The valve 6 and the bottom of the electromagnetic valve 6 are connected with a tapered water outlet, and the water outlet is located at the top of the glass carrier 9 .

By adopting the above-mentioned technical scheme, the water sample in the water sample container can be exported by tapering the water leakage hole 501 on the top of the threaded rod 5, and the amount of water dripping from the water sample to the glass slide 10 can be conveniently controlled by the solenoid valve 6. The solenoid valve 6 precisely releases the water sample to the glass slide 10, so as to improve the accuracy of releasing the water sample and reduce manual control.

Wherein, the bottom of the turntable 8 is provided with a sheave 801, the bottom of the sheave 801 is connected with a counterweight seat 802, and the counterweight seat 802 is rotatably connected to the top end surface of the mounting seat 1, and the rear side of the sheave 801 is connected to the driving rod 1301 at the top of the dial 13. Slidingly connected, the sheave 801 and the dial 13 form an intermittent rotation mechanism. The bottom of the dial 13 is provided with a driven worm gear 1302 , and the driven worm gear 1302 is meshed with the driving worm 1401 at the front end of the servo motor 14 .

Among them, the glass carrier 9 is welded on the outer side wall of the turntable 8 in an annular array, the glass carrier 9 is provided with round holes penetrating up and down, and the side wall of the round hole where the glass carrier 9 is connected with the turntable 8 is provided with a T-shaped card slot. 901, two unloading springs 11 are connected on the side wall of the T-shaped card slot 901, and the bottom of the T-shaped card slot 901 is slidingly connected with a fixed inclined block 12. The bottom is provided with a semi-open drag hook 1202 .

Wherein, the slide glass 10 is in a circular shape, and the slide glass 10 is connected in the T-shaped slot 901 of the slide glass frame 9 through the connecting plug 1002, and the right side wall of the connecting plug 1002 is elastically connected with the unloading spring 11, and the slide glass 10 The bottom of the connecting block 1002 of 10 is provided with a fixed slot 1001, and the fixed slot 1001 is connected with the top of the fixed inclined block 12.

Adopt above-mentioned technical scheme, drive driven worm gear 1302 to rotate through the driving worm 1401 of servo motor 14, driven worm gear 1302 drives dial 13 to rotate, and dial 13 moves sheave 801 to rotate through shift lever 1301, so that control by sheave 801 The turntable 8 rotates intermittently, so that when the turntable 8 rotates each time, the detection of the water sample on the slide glass 10 is carried out at the same time as the disassembly, installation and loading of the water sample on the slide glass 10, so that the four steps can be carried out simultaneously , it is convenient to improve the detection efficiency and save labor, and when the slide glass 10 is clamped in the slide frame 9, the fixed slot 1001 at the bottom of the slide glass 10 is connected with the top of the fixed inclined block 12, and the fixed inclined block 12 passes through two The support spring 1201 fixes the slide glass 10 to prevent the slide glass 10 from being thrown out when the turntable 8 rotates, so as to better improve the firmness of the clamping of the slide glass 10 .

The detection method of the environmental protection artificial intelligence detection device disclosed by the present invention comprises the following steps:

1. Firstly, the driving worm 1401 of the servo motor 14 drives the driven worm wheel 1302 to rotate, and the driven worm wheel 1302 drives the dial 13 to rotate, and the dial 13 drives the sheave 801 to rotate through the lever 1301, so as to control the turntable 8 through the sheave 801 Intermittent rotation is carried out, so that when the turntable 8 rotates each time, the work of disassembling, installing and loading the water sample on the slide glass 10 is realized while the water sample is detected on the slide glass 10;

2. The slide glass 10 needs to be placed on the loading platform 3 first, and the electric cylinder 7 pushes the push plate 701 to place the slide glass 10 in the slide rack 9;

3. With the rotation of the turntable 8, the glass slide 10 comes to the bottom of the solenoid valve 6, and the water sample in the water sample container placed on the leaking hole 501 on the top of the threaded rod 5 is conveniently exported through the solenoid valve 6, so that the water sample drops Falling onto the glass slide 10, the water sample is accurately released on the glass slide 10 through the solenoid valve 6, so as to improve the accuracy of water sample release and reduce manual control;

4. With the rotation of the turntable 8, the glass slide 10 brings the water sample to the microscope 102, and observes and detects the water sample on the glass slide 10 through the microscope 102;

5. The tested slide glass 10 comes to the unloading platform 2. When the turntable 8 rotates to the unloading platform 2 by carrying the glass slide 10 on the glass rack 9, the pull hook 1202 at the bottom of the fixed inclined block 12 slides to the unloading guide rod 201, as the drag hook 1202 reaches the lowest point of the unloading guide rod 201, the fixation of the fixed inclined block 12 to the slide glass 10 is released, and the slide glass 10 is ejected from the slide rack 9 under the action of the unloading spring 11 and slides to the dismounting position. on the platform 2, thereby increasing the convenience of dismounting the used glass slide 10, and making the slide glass 10 stored on the disassembly platform 2

The specific usage and function of this embodiment: In the present invention, firstly, the driving worm 1401 of the servo motor 14 drives the driven worm gear 1302 to rotate, and the driven worm gear 1302 drives the dial 13 to rotate, and the dial 13 moves the groove through the driving rod 1301 The wheel 801 rotates so that the turntable 8 is controlled to rotate intermittently through the grooved wheel 801, so that when the turntable 8 rotates each time, the detection of the water sample on the slide glass 10 is realized while the slide glass 10 is disassembled, installed and loaded with water samples. For the work, the slide glass 10 needs to be placed on the loading platform 3 first, and the electric cylinder 7 pushes the push plate 701 to place the slide glass 10 in the slide rack 9. With the rotation of the turntable 8, the slide glass 10 comes to the The bottom of the solenoid valve 6 is used to conveniently control the amount of water dripped onto the glass slide 10 through the solenoid valve 6, and a water leak hole 501 is conically arranged on the top of the threaded rod 5 to export the water sample in the container for holding the water sample. The valve 6 precisely releases the water sample to the glass slide 10, so as to improve the accuracy of water sample release and reduce manual control. The tested glass slide 10 comes to the disassembly platform 2. When the turntable 8 is carried by the glass carrier 9 When the slide glass 10 rotates to the dismounting platform 2, the draw hook 1202 at the bottom of the fixed slanting block 12 slides onto the unloading guide rod 201, and as the draw hook 1202 reaches the lowest point of the unloading guide bar 201, the attachment of the fixed slanting block 12 to the slide glass 10 is released. Fixed, the slide glass 10 is ejected from the slide glass rack 9 under the action of the unloading spring 11 and slides onto the dismounting platform 2, thereby increasing the convenience of dismounting the used slide glass 10, and making the slide glass 10 in the Store on disassembled platform 2.

Finally, it should be noted that when the present invention describes the position of each component and the cooperation relationship between them, it usually takes one/a pair of components as an example, but those skilled in the art should understand that such a position , coordination relationship, etc., are also applicable to other components/other paired components.

The above descriptions are only exemplary implementations of the present invention, and are not intended to limit the protection scope of the present invention, which is determined by the appended claims.

Claims (8)

1. Artificial intelligence detection device for environmental protection and detection method thereof, it is characterized in that, artificial intelligence detection device for environmental protection comprises: mounting base (1), described mounting base (1) is cylindrical, mounting base (1) A disassembly platform (2) is provided on the front side, a loading platform (3) is provided on the left side of the mounting base (1), a support frame (4) is provided on the rear side of the mounting base (1), and a column is provided on the right side of the mounting base (1) (101), the top of the column (101) is provided with a microscope (102), the top of the mount (1) is rotatably connected with a turntable (8), and the outer wall of the turntable (8) is welded with a glass carrier (9), and the glass carrier ( 9) There is a fixed inclined block (12) slidingly connected at the bottom, a glass slide (10) is clamped in the glass carrier (9), and a dial (13) is rotatably connected to the rear end surface of the top of the mounting base (1). Servomotor (14) is installed in seat (1) rear side outer wall. 2. artificial intelligence detection device for environmental protection as claimed in claim 1, characterized in that: a gap of one millimeter is set between the top end face of the dismounting platform (2) and the bottom end face of the glass carrier (9), and the dismounting platform (2) ) rear side wall is welded with a concave unloading guide rod (201), and the unloading guide rod (201) is slidably connected in the draw hook (1202) at the bottom of the fixed inclined block (12). 3. The artificial intelligence detection device for environmental protection as claimed in claim 1, characterized in that: an electric cylinder (7) is installed on the top of the left outer wall of the loading platform (3), and a push plate is connected to the telescopic end of the electric cylinder (7) (701), the push plate (701) is slidably connected to the top end surface of the loading platform (3), and an empty slide glass (10) is placed on the top end surface of the loading platform (3). 4. The artificial intelligence detection device for environmental protection as claimed in claim 1 is characterized in that: the left side of the top of the support frame (4) is threadedly connected with a threaded rod (5), and the top of the threaded rod (5) is tapered, and the thread Six leakage holes (501) are arranged in a circular array in the tapered side wall at the top of the rod (5), the bottom of the threaded rod (5) is connected to the solenoid valve (6), and the bottom of the solenoid valve (6) is connected to a tapered water outlet. The water outlet is located at the top of the glass carrier (9). 5. artificial intelligence detection device for environmental protection as claimed in claim 1, characterized in that: the bottom of the turntable (8) is provided with a sheave (801), and the bottom of the sheave (801) is connected with a counterweight seat (802), The counterweight seat (802) is rotatably connected in the top end face of the mounting seat (1), the rear side of the sheave (801) is slidably connected with the driving lever (1301) on the top of the dial (13), and the sheave (801) is connected to the dial ( 13) An intermittent rotation mechanism is formed, the bottom of the dial (13) is provided with a driven worm gear (1302), and the driven worm gear (1302) is meshed with the driving worm (1401) at the front end of the servo motor (14). 6. The artificial intelligence detection device for environmental protection as claimed in claim 1 is characterized in that: the glass carrier (9) is welded on the outer side wall of the turntable (8) in an annular array, and the glass carrier (9) is provided with upper and lower Through the round hole, a T-shaped card slot (901) is opened in the side wall of the round hole where the glass carrier (9) and the turntable (8) are connected, and two unloading slots (901) are connected on the side wall of the T-shaped card slot (901). The spring (11), the bottom of the T-shaped card slot (901) is slidingly connected with a fixed inclined block (12), the bottom of both sides of the fixed inclined block (12) is provided with support springs (1201), and the bottom of the fixed inclined block (12) is provided with half Open shape pull hook (1202). 7. artificial intelligence detection device for environmental protection as claimed in claim 1, is characterized in that: described slide glass (10) is circular shape, and slide glass (10) is connected on slide glass rack by connecting plug (1002) In the T-shaped card slot (901) of (9), the right side wall of the connection insert (1002) is elastically connected with the unloading spring (11), and the bottom of the connection insert (1002) of the slide glass (10) is provided with a fixed slot (1001), the fixed slot (1001) is connected with the top of the fixed inclined block (12). 8. the detection method of artificial intelligence detection device for environmental protection as claimed in claim 1-7, it is characterized in that: comprise the following steps: 1), first, the driving worm (1401) of the servo motor (14) drives the driven worm gear (1302) to rotate, and the driven worm gear (1302) drives the dial (13) to rotate, and the dial (13) passes through the lever (1301) Toggle the sheave (801) to rotate so that the turntable (8) is controlled to rotate intermittently through the sheave (801), so that when the turntable (8) rotates each time, the water sample on the slide glass (10) is detected simultaneously Carry out the work of dismounting, installing and loading water samples of slide glass (10); 2), the slide glass (10) needs to be placed on the loading platform (3) first, and the electric cylinder (7) pushes the push plate (701) to place the slide glass (10) in the slide rack (9); 3) With the rotation of the turntable (8), the glass slide (10) comes to the bottom of the solenoid valve (6), and the slide glass placed on the leaking hole (501) on the top of the threaded rod (5) is conveniently passed through the solenoid valve (6). The water sample in the water sample container is exported so that the water sample drops onto the glass slide (10), and the water sample is accurately released from the glass slide (10) through the solenoid valve (6), so as to improve the accuracy of water sample release , to reduce manual control; 4), with the rotation of the turntable (8), the glass slide (10) brings the water sample to the microscope (102), and observes and detects the water sample on the slide glass (10) through the microscope (102) ; 5), the detected slide glass (10) comes to the disassembly platform (2), when the turntable (8) carries the slide glass (10) through the glass carrier (9) and rotates to the disassembly platform (2), The draw hook (1202) at the bottom of the fixed slanting block (12) slides onto the unloading guide rod (201), and as the draw hook (1202) reaches the lowest point of the unloading guide rod (201), the fixed slanting block (12) is released against the glass slide ( 10), the slide glass (10) is ejected from the slide rack (9) under the action of the unloading spring (11) and slides onto the dismounting platform (2), thereby increasing the number of used slide slides (10) ) disassembly convenience, and make the slide glass (10) be stored on the disassembly platform (2).

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