CN116351801A - A self-cleaning component of an intelligent detection device - Google Patents

Abstract

The invention relates to the technical field of equipment cleaning, in particular to a self-cleaning component of intelligent detection equipment, which comprises detection equipment and a detection table, wherein the detection table is arranged in the detection equipment, mounting seats are arranged on the front side and the rear side of the detection table, electric sliding tables are arranged on the tops of the two mounting seats, a cleaning mechanism is arranged between the tops of the two electric sliding tables, and flushing mechanisms are arranged on the two sides of the detection table. According to the invention, the self-cleaning treatment is carried out on the detection table through the cleaning mechanism, and then the cleaning mechanism is matched with the flushing mechanisms arranged on the two sides of the detection table to flush the cleaning parts in the cleaning mechanism, so that the cleaning mechanism can clean the detection table continuously, the problem that the conventional manual cleaning is easy to deviate is solved, the detection efficiency of the intelligent detection equipment is improved, and the accuracy of the detection result of the intelligent detection equipment on the food sample is ensured.

Description

A self-cleaning component of an intelligent detection device

technical field

The invention relates to the technical field of equipment cleaning, in particular to a self-cleaning component of an intelligent detection equipment.

Background technique

Food safety testing is to detect harmful substances in food according to national indicators, mainly the detection of some harmful and toxic indicators, such as heavy metals, aflatoxins, etc. When food safety testing is carried out, the food samples are placed on the detection table of the intelligent detection equipment, and then the detection elements are used to carry out safety detection processing on the food samples.

After the testing of food samples is completed, some samples will remain on the testing platform. If the testing platform is not cleaned, the remaining samples will contaminate the next sample, which will easily affect the accuracy of subsequent testing samples. However, due to the existing testing platform There is no self-cleaning function on the surface, so at present, the residual samples on the detection platform are manually cleaned by the inspectors. The increase of the manual operation process will reduce the working efficiency of the intelligent detection equipment, and the manual operation method is prone to deviations. Undoubtedly will reduce the accuracy of testing samples.

To this end, we propose a self-cleaning component of an intelligent detection device.

Contents of the invention

Aiming at the deficiencies of the prior art, the present invention provides a self-cleaning component of an intelligent detection device, which is used to realize automatic cleaning of the detection platform on the intelligent detection device and improve the accuracy of sample detection by the intelligent detection device.

In order to achieve the above object, the present invention is achieved through the following technical solutions: a self-cleaning component of an intelligent detection device, including a detection device and a detection table, the detection table is located inside the detection device, and the front and rear sides of the detection table are Both are provided with mounting seats, and the tops of the two mounting seats are provided with electric slides, a cleaning mechanism is provided between the tops of the two electric slides, and flushing mechanisms are provided on both sides of the detection platform;

When testing food samples, the food samples are placed on the testing platform, and the intelligent detection elements in the testing equipment are used to detect the food samples on the testing platform. After the inspection and processing of the food samples are completed, the food samples are Take it away from the detection platform, drive the cleaning mechanism to automatically clean the detection platform through two electric slides, and then cooperate with the flushing mechanism on both sides of the detection platform to rinse the cleaning parts in the cleaning mechanism to ensure the cleaning mechanism itself. Cleaning, so that the cleaning mechanism can achieve continuous cleaning treatment on the testing platform, which solves the problem that the existing manual cleaning is prone to deviation, so as to ensure the accuracy of the testing results of food samples by intelligent testing equipment;

The cleaning mechanism includes a mounting frame and a cleaning roller, the tops of the two electric slides are provided with mounting frames, and a rotating rod is arranged between the opposite sides of the two mounting frames, and the front and rear sides of the surface of the rotating rod Both are provided with connecting frames, and the bottoms of the two connecting frames are provided with elevating frames, and a cleaning roller is rotated between the opposite sides of the two elevating frames, and a micro motor is arranged inside the rear elevating frame, One end of the output shaft of the micro motor is connected with one end of the cleaning roller through a coupling;

Both sides of the two connecting frames are provided with suction components, and the two suction components are respectively located on both sides of the cleaning roller, the suction components include a fixed frame, and the internal movement of the fixed frame is provided with a suction frame , both sides inside the fixed frame are provided with micro-servo electric cylinders, and the drive ends of the two micro-servo electric cylinders are respectively connected to both sides of the top of the suction frame, and the interior of the suction frame is provided with a suction chamber , and the bottom of the inner wall of the suction cavity is provided with several suction holes.

Preferably, micro electric push rods are provided inside the two connecting frames, and the driving ends of the two micro electric push rods are respectively connected to the tops of the two lifting frames.

Preferably, a protective cover is provided between opposite sides of the two connecting frames, and the protective cover is located above the cleaning roller.

Preferably, a suction pipe is provided on one side of the suction rack, and one end of the suction pipe communicates with the inside of the suction chamber, and a suction pump is arranged inside the installation frame at the rear side, and the suction pump The feed end of the feed tube communicates with the other end of the suction pipe.

Preferably, a discharge pipe is provided at the discharge end of the suction pump, and a sample collection box is provided at one end of the discharge pipe.

When the cleaning roller is in rotational contact with the surface of the detection table, the driving end of the micro servo electric cylinder drives the suction frame to slide downward inside the fixed frame, and controls one of the suction frames to descend according to the displacement direction of the cleaning roller. When the cleaning roller moves from left to right above the detection platform, control the suction frame on the left side of the cleaning roller to move downward until the distance between the bottom of the suction frame and the upper surface of the detection platform is 2-3cm. When the upper surface of the detection table rotates and touches, the suction pump makes the suction hole at the bottom of the left suction frame generate suction through the suction pipe, and the residual samples on the detection table enter the suction pipe through the suction hole and the suction cavity. Finally, the residual sample is sent to the sample collection box through the suction pump and the discharge pipe for collection; when the cleaning roller moves from right to left above the detection table, the suction rack on the right side of the cleaning roller is controlled to move down Suction treatment, use two suction racks with cleaning rollers to effectively clean the residual samples on the detection platform, compared with the single cleaning method of cleaning rollers, firstly use the cleaning rollers to remove the residual samples adhered to the detection platform , and then use the suction rack to absorb the scattered samples on the detection table. The cooperation of the two can greatly improve the cleaning effect on the surface of the detection table, so as to avoid the influence of residual samples on the next sample detection result and improve the accuracy of the sample. The accuracy of the test results.

Preferably, a servo motor is arranged inside the fixed frame at the front side, and one end of the output shaft of the servo motor is connected to one end of the rotating rod through a coupling.

Preferably, the flushing mechanism includes a flushing frame, the flushing frame is arranged on one side of the detection platform, and a flushing tank is arranged inside the flushing frame, an arc-shaped frame is arranged on one side of the inner wall of the flushing tank, and the arc-shaped One side of the frame inner wall is provided with several scraping brushes.

Preferably, a flushing plate is provided on the top of the inner wall of the flushing tank, and a liquid guide tube and an air guide tube are provided on one side of the flushing plate.

Preferably, the bottom of the inner wall of the flushing tank is provided with a discharge port, and the bottom of the discharge port is connected to a waste box through a discharge pipe, wherein the waste box is arranged inside the detection device.

Preferably, the working method of the self-cleaning component of the intelligent detection device is as follows:

Firstly, the driving end of the micro servo electric cylinder drives the suction frame to slide down inside the fixed frame, and the two electric slides drive the cleaning roller to move from left to right above the detection table, and are driven by the micro electric push rod. The end drives the suction frame on the left side of the cleaning roller to move downward. When the cleaning roller is in rotational contact with the upper surface of the detection platform, the suction pump makes the suction hole at the bottom of the left suction frame generate suction through the suction pipe, and the detection platform The residual samples on the pump enter the suction pipe through the suction hole and the suction chamber, and finally send the residual samples into the sample collection box through the suction pump and the discharge pipe for collection;

After completing a self-cleaning process on the detection table through the cleaning mechanism, the output shaft of the servo motor drives the rotating rod to rotate clockwise 90°, so that the cleaning roller and the suction frame are in a state parallel to the detection table, and then the electric slide Driven by the table, the cleaning mechanism enters the interior of the flushing tank, and the driving end of the miniature electric push rod pushes the lifting frame to move to one side of the arc frame, so that the surface of the cleaning roller contacts the scraping brush inside the arc frame;

Spray the cleaning liquid on the surface of the cleaning roller through the guide tube, and at the same time the cleaning roller rotates, use the scraper brush to perform self-cleaning treatment on the surface of the cleaning roller, and then blow dry hot air to the surface of the cleaning roller through the air guide tube, Make the cleaning roller dry quickly inside the rinse tank, and after cleaning the surface of the cleaning roller, continue to clean the bottom end of the suction rack that works on one side of the cleaning roller.

The invention provides a self-cleaning component of an intelligent detection device. Compared with the prior art, it has the following beneficial effects:

The cleaning mechanism performs self-cleaning treatment on the testing platform, and then cooperates with the flushing mechanism installed on both sides of the testing platform to rinse the cleaning parts in the cleaning mechanism to ensure the cleaning of the cleaning mechanism itself, so that the cleaning mechanism can achieve continuity on the testing platform The cleaning treatment solves the problem that the existing manual cleaning is prone to deviation, not only improves the detection efficiency of the intelligent detection equipment, but also ensures the accuracy of the detection results of the food samples by the intelligent detection equipment.

By setting the connection structure between the cleaning roller and the suction frame in the cleaning mechanism, compared with the single cleaning method of the cleaning roller, the residual samples adhered to the detection table are firstly cleaned by the cleaning roller, and then the detection is carried out by the suction frame. Scattered samples on the table are absorbed, and the cooperation of the two can greatly improve the cleaning effect on the surface of the test table, thereby avoiding the influence of residual samples on the next sample test results and improving the accuracy of sample test results.

Through the flushing mechanism installed on both sides of the detection platform, after the self-cleaning process is completed on the detection platform through the cleaning mechanism, the cleaning mechanism is sent into the inside of the flushing frame to rinse and dry the surface of the cleaning roller, and then clean the surface of the cleaning roller. The bottom of the suction rack working on one side of the roller is cleaned to ensure the cleanliness of the cleaning roller and the surface of the suction rack, so as to realize effective self-cleaning treatment on the surface of the detection table and improve the accuracy of sample detection.

Description of drawings

1 is a schematic diagram of a self-cleaning component structure of an intelligent detection device according to an embodiment of the present invention;

Fig. 2 is the schematic diagram of the cleaning mechanism structure of the embodiment of the present invention;

3 is a schematic diagram of the structure of the fixing frame and the cleaning roller according to the embodiment of the present invention;

4 is a schematic diagram of the structure of the connecting frame and the lifting frame according to the embodiment of the present invention;

Fig. 5 is a schematic diagram of the internal structure of the suction rack of the embodiment of the present invention;

Fig. 6 is a schematic diagram of the structure of the flushing mechanism according to the embodiment of the present invention.

In the figure, 10. testing equipment; 20. testing platform; 30. mounting seat; 40. electric sliding table; 50. cleaning mechanism; 60. flushing mechanism; 11. mounting frame; 12. cleaning roller; , connecting frame; 15, lifting frame; 16, micro motor; 17, micro electric push rod; 18, protective cover; 19, servo motor; 21, fixed frame; 22, suction frame; 23, micro servo electric cylinder; 24 , suction cavity; 25, suction hole; 26, suction pipe; 27, suction pump; 31, flushing frame; 32, arc frame; 33, scraping brush; 34, flushing plate; 35, catheter ; 36, air duct; 37, discharge port.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Example 1

Please refer to Fig. 1 to Fig. 6, a kind of self-cleaning assembly of intelligent testing equipment includes testing equipment 10 and testing platform 20, testing platform 20 is located inside testing equipment 10, and the front and rear sides of testing platform 20 are provided with Mounting seat 30, and the tops of two mounting seats 30 are all provided with electric sliding table 40, are provided with cleaning mechanism 50 between the tops of two electric sliding tables 40, both sides of detection table 20 are all provided with flushing mechanism 60, in When the food sample is tested, the food sample is placed on the detection platform 20, and the food sample on the detection platform 20 is detected by using the intelligent detection element in the detection device 10. After the inspection process of the food sample is completed, the The food sample is taken away from the detection platform 20, and the cleaning mechanism 50 is driven by two electric slides 40 to automatically clean the detection platform 20, and then cooperate with the washing mechanism 60 provided on both sides of the detection platform 20 to clean the cleaning mechanism 50. Rinse the parts to ensure the cleaning of the cleaning mechanism 50 itself, so that the cleaning mechanism 50 can continuously clean the detection table 20, and solve the problem that the existing manual cleaning is prone to deviation, thereby ensuring that the intelligent detection equipment is accurate to the food The accuracy of the test results of the samples.

Further, the cleaning mechanism 50 includes a mounting frame 11 and a cleaning roller 12, the tops of the two electric slides 40 are provided with the mounting frame 11, and a rotating rod 13 is provided between the opposite sides of the two mounting frames 11, and the rotating rod The front and rear sides of the surface of 13 are provided with connecting frames 14, and the bottoms of the two connecting frames 14 are provided with elevating frames 15, and a cleaning roller 12 is rotated between the opposite sides of the two elevating frames 15, and is positioned at the rear side for lifting. The inside of frame 15 is provided with micromotor 16, and one end of the output shaft of micromotor 16 is connected with an end of cleaning roller 12 by coupling, drives cleaning roller 12 to rotate by the output shaft of micromotor 16, utilizes the surface of cleaning roller 12 and The surface of the detection platform 20 is rotated and contacted to effectively clean the remaining samples on the detection platform 20;

The insides of the two connecting frames 14 are all provided with miniature electric push rods 17, and the driving ends of the two miniature electric push rods 17 are respectively connected to the tops of the two lifting frames 15, and the driving ends of the miniature electric pushing rods 17 drive the lifting frame 15 descends below the connecting frame 14, so that the cleaning roller 12 is attached to the surface of the detection platform 20, and the cleaning roller 12 is used to achieve a better cleaning effect on the surface of the detection platform 20.

Further, a protective cover 18 is arranged between the opposite sides of the two connecting frames 14, and the protective cover 18 is located above the cleaning roller 12, and the cleaning roller 12 is cleaned by using the protective cover 18 on the surface of the detection platform 20. In this way, it is possible to prevent the sample adhering to the cleaning roller 12 from splashing and polluting the detection platform 20 .

Further, a servomotor 19 is arranged inside the fixed frame 21 on the front side, and one end of the output shaft of the servomotor 19 is connected with one end of the rotating rod 13 through a coupling, and the rotating rod 13 is controlled to rotate by the output shaft of the servomotor 19 , so as to adjust the orientation of the cleaning roller 12 and the suction frame 22 in the cleaning mechanism 50 .

Further, in order to cooperate with the cleaning roller 12 to effectively clean the remaining samples on the detection platform 20, suction components are arranged on both sides of the two connecting frames 14, and the two suction components are respectively located on both sides of the cleaning roller 12, suction The material assembly includes a fixed frame 21, and the inside of the fixed frame 21 is provided with a material suction frame 22, and both sides of the fixed frame 21 are provided with miniature servo electric cylinders 23, and the driving ends of the two miniature servo electric cylinders 23 are respectively connected to the The two sides of the top of the suction rack 22 are connected, the inside of the suction rack 22 is provided with a suction chamber 24, and the bottom of the inner wall of the suction chamber 24 is provided with several suction holes 25, wherein the bottom of several suction holes 25 Both run through the bottom of the suction rack 22; one side of the suction rack 22 is provided with a suction tube 26, and one end of the suction tube 26 communicates with the inside of the suction chamber 24, and the inside of the mounting frame 11 at the rear side is provided with a suction tube. Material pump 27, and the feed end of suction pump 27 communicates with the other end of suction pipe 26, wherein the discharge end of suction pump 27 is provided with discharge pipe, and one end of discharge pipe extends to the sample collection box, The sample collection box is arranged inside the detection device 10. When the cleaning roller 12 is in rotational contact with the surface of the detection table 20, the driving end of the micro servo electric cylinder 23 drives the suction frame 22 to slide downward inside the fixed frame 21, According to the displacement direction of the cleaning roller 12, one group of suction racks 22 is controlled to descend. When the cleaning roller 12 is displaced from left to right above the detection platform 20, the suction rack 22 on the left side of the cleaning roller 12 is controlled to move downward. , until the bottom of the suction frame 22 is 2-3cm away from the upper surface of the detection platform 20, when the cleaning roller 12 is in rotational contact with the upper surface of the detection platform 20, the suction pump 27 makes the left side suction frame 20 through the suction pipe 26 The suction hole 25 at the bottom of 22 generates suction, and the residual sample on the detection platform 20 enters the suction pipe 26 through the suction hole 25 and the suction chamber 24, and finally sends the residual sample into the sample through the suction pump 27 and the discharge pipe. Collect in the collection box; when the cleaning roller 12 is shifted from right to left above the detection platform 20, the suction rack 22 on the right side of the cleaning roller 12 is controlled to move downward for suction processing, and two suction racks 22 are used to Cooperating with the cleaning roller 12 can effectively clean the residual samples on the detection platform 20. Compared with the single cleaning method of the cleaning roller 12, the residual samples adhered to the detection platform 20 are firstly removed by the cleaning roller 12, and then the suction The rack 22 absorbs the samples scattered on the detection platform 20, and the cooperation of the two can significantly improve the cleaning effect on the surface of the detection platform 20, thereby avoiding the influence of residual samples on the next sample detection results and improving the detection results of the samples. accuracy.

Example 2

After a self-cleaning process is performed on the surface of the detection platform 20 by the cleaning roller 12, there will be sample residues on the surface of the cleaning roller 12. If the residual samples on the surface of the cleaning roller 12 are not cleaned, the surface of the detection platform 20 will be cleaned by the cleaning roller 12 next time. When cleaning, the cleaning effect on the surface of the detection platform 20 will be reduced, and at the same time, further sample contamination on the surface of the detection platform 20 will be caused. Therefore, flushing mechanisms 60 are also provided on both sides of the detection platform 20, and two flushing mechanisms 60 are used to The surface of the cleaning roller 12 is cleaned to ensure that the cleaning roller 12 still maintains a clean state after completing the self-cleaning process, thereby realizing the continuous self-cleaning process of the cleaning roller 12 on the detection platform 20, while also improving the cleaning of the cleaning roller 12. For the cleaning effect on the detection platform 20; the flushing mechanism 60 includes a flushing frame 31, the flushing frame 31 is arranged on one side of the detection stage 20, and the inside of the flushing frame 31 is provided with a flushing tank, and one side of the inner wall of the flushing tank is provided with an arc frame 32, and one side of the inner wall of the arc frame 32 is provided with several scraping brushes 33, the top of the inner wall of the flushing tank is also provided with a flushing plate 34, and one side of the flushing plate 34 is provided with a liquid guide tube 35 and an air guide tube 36 , the bottom of the inner wall of the rinsing tank is provided with a discharge port 37, and the bottom of the discharge port 37 is connected with a waste box through a discharge pipe, wherein the waste box is arranged inside the detection device 10, and the cleaning mechanism 50 passes through the detection platform 20. After completing a self-cleaning process, the output shaft of the servo motor 19 drives the rotating rod 13 to rotate clockwise 90°, so that the cleaning roller 12 and the suction frame 22 are all in a state parallel to the detection table 20, and then on the electric slide table 40 Driven to let the cleaning mechanism 50 enter the inside of the flushing tank, the driving end of the miniature electric push rod 17 pushes the lifting frame 15 to move to one side of the arc frame 32, so that the surface of the cleaning roller 12 and the scraping brush inside the arc frame 32 33 contact, spray the cleaning liquid to the surface of the cleaning roller 12 through the guide tube 35, and the cleaning roller 12 rotates at the same time, use the scraper brush 33 to carry out self-cleaning treatment on the surface of the cleaning roller 12, and then pass the air guide tube 36 to clean Blow dry hot air on the surface of the roller 12 to make the cleaning roller 12 dry quickly in the flushing tank. Cleaning ensures the cleanliness of the surface of the cleaning roller 12 and the suction rack 22, thereby realizing effective self-cleaning treatment on the surface of the detection table 20 and improving the accuracy of sample detection.

Example 3

The present invention also discloses a working method of a self-cleaning component of an intelligent detection device as follows:

Firstly, the driving end of the miniature servo electric cylinder 23 drives the suction frame 22 to slide downward inside the fixed frame 21, and the two electric sliding tables 40 drive the cleaning roller 12 to move from left to right above the detection table 20, and pass The driving end of the miniature electric push rod 17 drives the suction frame 22 on the left side of the cleaning roller 12 to move downward. The suction hole 25 at the bottom of the suction rack 22 generates suction, and the residual sample on the detection platform 20 enters the suction pipe 26 through the suction hole 25 and the suction chamber 24, and finally the residual sample is discharged through the suction pump 27 and the discharge pipe. into the sample collection box for collection;

After completing a self-cleaning process on the detection platform 20 by the cleaning mechanism 50, the output shaft of the servo motor 19 drives the rotating rod 13 to rotate clockwise by 90°, so that the cleaning roller 12 and the suction frame 22 are all in parallel with the detection platform 20 state, then let the cleaning mechanism 50 enter the inside of the flushing tank under the drive of the electric sliding table 40, and the driving end of the miniature electric push rod 17 pushes the lifting frame 15 to move to one side of the arc frame 32, so that the surface of the cleaning roller 12 Contact with the scraper brush 33 inside the arc frame 32;

Spray the cleaning solution on the surface of the cleaning roller 12 by the liquid guide tube 35, while the cleaning roller 12 rotates, utilize the scraper brush 33 to carry out self-cleaning treatment on the surface of the cleaning roller 12, and then pass the air guide tube 36 to the surface of the cleaning roller 12 The hot air that blows dry on the surface makes the cleaning roller 12 dry quickly in the inside of the rinse tank. After cleaning the surface of the cleaning roller 12, continue to clean the bottom end of the suction rack 22 that is working on one side of the cleaning roller 12.

At the same time, the content not described in detail in this specification belongs to the prior art known to those skilled in the art.

It should be noted that in this article, relational terms such as first and second are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply that there is a relationship between these entities or operations. There is no such actual relationship or order between them. Furthermore, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article, or apparatus comprising a set of elements includes not only those elements, but also includes elements not expressly listed. other elements of or also include elements inherent in such a process, method, article, or device.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes, modifications and substitutions can be made to these embodiments without departing from the principle and spirit of the present invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (10)

1. A self-cleaning component of an intelligent detection device, comprising a detection device (10) and a detection stand (20), the detection stand (20) being positioned at the interior of the detection device (10), characterized in that: the detection The front and rear sides of the platform (20) are all provided with mounts (30), and the tops of the two mounts (30) are all provided with electric slides (40), between the tops of the two electric slides (40) A cleaning mechanism (50) is provided, and flushing mechanisms (60) are provided on both sides of the detection platform (20); The cleaning mechanism (50) includes a mounting frame (11) and a cleaning roller (12). The tops of the two electric slides (40) are provided with mounting frames (11), and the two mounting frames (11) are opposite to each other. A rotating rod (13) is arranged between one side of the rotating rod (13), the front and rear sides of the surface of the rotating rod (13) are provided with a connecting frame (14), and the bottoms of the two connecting frames (14) are provided with a lifting frame (15 ), a cleaning roller (12) is rotated between the opposite sides of the two lifting frames (15), and a micromotor (16) is arranged inside the rear lifting frame (15), and the micromotor ( One end of the output shaft of 16) is connected with one end of the cleaning roller (12) through a coupling; Both sides of the two connecting frames (14) are provided with suction components, and the two suction components are respectively located on both sides of the cleaning roller (12), and the suction components include a fixed frame (21) and are fixed The internal activities of the frame (21) are provided with a suction rack (22), and both sides of the fixed mount (21) are provided with miniature servo electric cylinders (23), and the driving of the two miniature servo electric cylinders (23) The ends are respectively connected to both sides of the top of the suction rack (22), the inside of the suction rack (22) is provided with a suction chamber (24), and the bottom of the inner wall of the suction chamber (24) is provided with several suction chambers. hole (25). 2. The self-cleaning assembly of a kind of intelligent detection equipment according to claim 1, characterized in that: the inside of the two connecting frames (14) is provided with miniature electric push rods (17), and the two miniature The driving ends of the electric push rods (17) are respectively connected with the tops of the two lifting frames (15). 3. The self-cleaning assembly of a kind of intelligent detection equipment according to claim 1, characterized in that: a protective cover (18) is arranged between the opposite sides of the two connecting frames (14), and the protective cover (18) is located above the cleaning roller (12). 4. The self-cleaning assembly of a kind of intelligent detection equipment according to claim 1, characterized in that: one side of the suction rack (22) is provided with a suction pipe (26), and the suction pipe (26 ) is communicated with the inside of the suction cavity (24), the inside of the installation frame (11) at the rear side is provided with a suction pump (27), and the feed end of the suction pump (27) is connected to the suction pipe The other end of (26) is connected. 5. The self-cleaning assembly of a kind of intelligent detection equipment according to claim 4, characterized in that: the discharge end of the suction pump (27) is provided with a discharge pipe, and one end of the discharge pipe is provided with a Sample collection box. 6. The self-cleaning assembly of an intelligent detection device according to claim 5, characterized in that: a servo motor (19) is arranged inside the fixed frame (21) located on the front side, and the servo motor (19) One end of the output shaft is connected with an end of the rotating rod (13) by a coupling. 7. A self-cleaning component of an intelligent detection device according to claim 1, characterized in that: the flushing mechanism (60) includes a flushing frame (31), and the flushing frame (31) is arranged on the detection table ( 20), and the inside of the flushing frame (31) is provided with a flushing tank, one side of the inner wall of the flushing tank is provided with an arc frame (32), and one side of the inner wall of the arc frame (32) is provided with Several scraping brushes (33) are arranged. 8. The self-cleaning assembly of a kind of intelligent detection equipment according to claim 7, characterized in that: a flushing plate (34) is also arranged on the top of the inner wall of the flushing tank, and one side of the flushing plate (34) is arranged A catheter (35) and an airway (36) are arranged. 9. The self-cleaning component of a kind of intelligent detection equipment according to claim 8, characterized in that: the bottom of the inner wall of the flushing tank is provided with a discharge port (37), and the bottom of the discharge port (37) passes through The discharge pipe is connected with a waste box, wherein the waste box is arranged inside the detection device (10). 10. A self-cleaning component of an intelligent detection device according to claim 1, wherein the working method of the self-cleaning component of the intelligent detection device is as follows: Firstly, the driving end of the miniature servo electric cylinder (23) drives the suction frame (22) to slide downward inside the fixed frame (21), and drives the cleaning roller (12) on the detection platform ( The top of 20) is displaced from left to right, and the suction frame (22) on the left side of the cleaning roller (12) is driven downward by the driving end of the miniature electric push rod (17). When the upper surface of (20) rotates and contacts, the suction pump (27) makes the suction hole (25) at the bottom of the left side suction frame (22) produce suction force through the suction pipe (26), and the suction on the detection platform (20) The residual sample enters the suction pipe (26) through the suction hole (25) and the suction chamber (24), and finally sends the residual sample into the sample collection box through the suction pump (27) and the discharge pipe for collection; After completing a self-cleaning process on the detection table (20) by the cleaning mechanism (50), the output shaft of the servo motor (19) drives the rotating rod (13) to rotate clockwise 90°, so that the cleaning roller (12) and the suction The material racks (22) are all in the state parallel to the detection table (20), and then the cleaning mechanism (50) is allowed to enter the inside of the flushing tank under the drive of the electric slide table (40), and the driving end of the miniature electric push rod (17) Push the lifting frame (15) to move to one side of the arc frame (32), so that the surface of the cleaning roller (12) contacts the scraper brush (33) inside the arc frame (32); Spray the cleaning solution on the surface of the cleaning roller (12) by the catheter (35), while the cleaning roller (12) rotates, and utilize the scraper brush (33) to carry out self-cleaning treatment on the surface of the cleaning roller (12), then The hot air that blows dry to the surface of cleaning roller (12) by air duct (36) again makes cleaning roller (12) carry out rapid drying in the inside of rinse tank, after finishing the cleaning of cleaning roller (12) surface, continue Clean the bottom end of the suction frame (22) working on one side of the cleaning roller (12).

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