CN219567947U - Online spore detection device - Google Patents

Abstract

The utility model discloses an online spore detection device which comprises a cabinet, a detection cabinet and an electric box which are independently arranged, wherein a movable spore collecting frame is arranged on the cabinet, a collecting mechanism for collecting spores is arranged on the spore collecting frame, a guiding mechanism is further arranged on one side of the spore collecting frame, the detection mechanism is arranged above the electric box, the detection cabinet is connected with the spore collecting frame, the detection cabinet is connected with the electric box, and a hydraulic lifting mechanism is arranged at the joint of the detection cabinet and the electric box. The spore is stopped on the detection table after passing through the air duct, and the spore is observed and detected by the microscope component on the detection table, so that the real-time detection effect is achieved through the online detection module, the detection efficiency of the spore is improved, and the detection precision is higher.

Description

Online spore detection device

Technical Field

The utility model relates to the technical field of spore detection, in particular to an online spore detection device.

Background

The spore detection device can be used for collecting spores of air-borne fungi and the like of animals and plants, and analyzing data after detection of the collected spores so as to judge the quality of the spores and whether the spores contain germs.

In the existing spore detection devices on the market, the fixed type spore detection device is the vast majority, and when the spore detection device is used, a worker is required to collect a sampling specimen in a spore capture instrument on site. Because the sampling specimens are supported by the glass slides, the glass slides are also required to be replaced and placed manually, and the workload of manual observation and report is high, so that the prediction accuracy is low and the error rate is high; and the predictable time point spans too much, basically in days, and the ideal state is in hours; after the sample is retrieved, the sample is taken to a laboratory for microscopic observation and detection, so that the sampling period is prolonged, and the accuracy and timeliness of agricultural disaster forecasting are seriously affected. For this purpose, an online spore detection device is proposed.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides an online spore detection device which can effectively solve the problems of the background technology.

The technical scheme adopted for solving the technical problems is as follows:

the on-line spore detection device comprises a cabinet, a detection case and an electric box which are independently arranged, wherein a movable spore collecting frame is arranged on the cabinet, a collecting mechanism for collecting spores is arranged on the spore collecting frame, a guiding mechanism is further arranged on one side of the spore collecting frame, the detection case is arranged above the electric box and is connected with the spore collecting frame, the detection case is connected with the electric box, and a hydraulic lifting mechanism is arranged at the joint of the detection case and the electric box;

the inside of the detection cabinet further comprises a first collection air channel, a second collection air channel and a spore detection mechanism, wherein the first collection air channel is connected with the spore collection frame, the second collection air channel is connected with the spore detection mechanism, the spore detection mechanism comprises a microscope component, a detection table and an online detection module, the microscope component is connected with the online detection module, and the online detection module comprises a control module, a sampling module, a analysis module and a data processing transmission module;

the spore collection mechanism comprises a plurality of collectors which are respectively in a matrix, and are communicated with a first collection air channel which is communicated with a second collection air channel.

In particular, the spore collection frame is vertically arranged on the cabinet, a limiting groove is formed in the cabinet, the limiting groove is matched with the spore collection frame, and the spore collection frame moves along the Z-axis direction of the mechanism through the guide mechanism.

In particular, the guide mechanism comprises a plurality of guide wheels, the guide wheels are arranged on one side of the spore collection frame, the guide wheels are connected through a plurality of gears, one of the guide wheels is connected with a driving module, and the driving module is a stepping motor.

In particular, the collector is a cylinder, a plurality of densely distributed through holes are formed in the surface of the collector, and the collector is in sealing connection with the first collecting air duct.

In particular, the bottom of the cabinet is also provided with a cleaning fan, the cleaning fan spore collection frame is perpendicular to the cleaning fan, and the inner side of the cabinet is provided with a guide groove.

Particularly, the hydraulic lifting mechanism comprises a plurality of lifting rods, the lifting rods are respectively connected with a detection machine case and an electric box, the detection machine case and the spore collection frame are horizontally arranged, a mobile power supply module is further arranged in the electric box, and a plug guide piece for electrifying the cabinet is further arranged on one side of the electric box.

In particular, the second collecting air duct is perpendicular to the detection table, the microscope assembly is arranged on the detection table, and a fan is arranged at one end of the second collecting air duct.

In particular, the detection machine box moves along the Z-axis direction of the electric box through the lifting rod, wherein the detection machine box is fixedly connected with the spore collection frame through bolts, and the spore collection frame moves synchronously with the detection machine box through the guide mechanism.

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

the online spore detection device has at least one of the following beneficial effects in the using process:

the equipment comprises the quick-witted case of three independent settings, wherein, the spore collection frame that the rack set up can be on the rack activity, and the spacing groove that the rack inside formed is used for preserving the spore collection frame, and still can be through the clean fan of rack bottom will collect the spore on the frame and clear away, and can keep the cleanliness factor of spore collection frame, the spore stops behind the wind channel on detecting the bench, the microscope subassembly on the detecting bench observes and detects the spore, have real-time detection's effect through the online detection module, and improved the detection efficiency of spore, and the detection precision is higher.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an on-line spore detection device of the present utility model;

FIG. 2 is a schematic diagram of the front structure of an on-line spore detection device according to the present utility model;

FIG. 3 is a schematic diagram showing the internal structure of the on-line spore detection device of the present utility model.

Reference numerals in the drawings:

1. a cabinet; 101. a guide wheel; 102. a limit groove; 103. cleaning a fan; 2. a spore collection rack; 201. a collection mechanism; 202. a guide mechanism; 203. a collector; 204. a guide groove; 3. detecting a case; 301. a first collection duct; 302. the second collection air duct; 303. a blower; 304. a microscope assembly; 305. spore detection means; 306. a detection table; 4. an electric box; 401. inserting and pulling a guide piece; 402. a mobile power module; 5. a hydraulic lifting mechanism; 501. lifting rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-3, the utility model provides an online spore detection device, which comprises a cabinet 1, a detection cabinet 3 and an electric box 4 which are independently arranged, wherein a movable spore collection frame 2 is arranged on the cabinet 1, a collection mechanism 201 for collecting spores is arranged on the spore collection frame 2, a guide mechanism 202 is also arranged on one side of the spore collection frame 2, the detection cabinet 3 is arranged above the electric box 4, the detection cabinet 3 is connected with the spore collection frame 2, the detection cabinet 3 is connected with the electric box 4, and a hydraulic lifting mechanism 5 is arranged at the joint of the detection cabinet 3 and the electric box 4;

the cabinet 1 and the spore collection rack 2 move up and down through a guide mechanism 202, wherein a driving module is arranged in the guide mechanism 202. The spore collection frame 2 and the rack 1 sliding fit to the inside spacing groove 102 that the spore collection frame 2 placed that forms of rack 1, when the device is not started, the spore collection frame 2 is retrieved in spacing groove 102, and accessible rack 1 bottom cleaning mechanism cleans, further improves the cleanliness of spore collection frame 2.

The detection electric box 4 further comprises a first collection air duct 301, a second collection air duct 302 and a spore detection mechanism 305, wherein the first collection air duct 301 is connected with the spore collection frame 2, the second collection air duct 302 is connected with the spore detection mechanism 305, the spore detection mechanism 305 comprises a microscope assembly 304, a detection table 306 and an online detection module, the microscope assembly 304 is connected with the online detection module, and the online detection module comprises a control module, a sampling module, a analysis module and a data processing transmission module;

the spore collection mechanism 201 includes a plurality of collectors 203, the collectors 203 are in a matrix, and each collector 203 is in communication with a first collection duct 301, and the first collection duct 301 is in communication with a second collection duct 302.

The spores of this embodiment are detected to spore detection mechanism 305 through the extraction of wind channel by collector 203 through detecting the fan 303 in the quick-witted case 3, and the data and the image of detecting the spores realize on-line measuring through on-line measuring module, have real-time detection's effect to improved the detection efficiency of spore, detection precision is also higher.

Specifically, through the spore that catches the air and flow, after the spore is caught, detecting system can take the picture to the spore, acquires clear picture, and then these pictures can be uploaded to cloud server voluntarily, and the staff can analyze and count through cell-phone or computer, has effectively shortened the cycle of prediction.

Further, the spore collection rack 2 is vertically arranged on the cabinet 1, a limiting groove 102 is formed in the cabinet 1, the limiting groove 102 is matched with the spore collection rack 2, and the spore collection rack 2 moves along the Z-axis direction of the mechanism through a guide mechanism 202. A matching groove is formed at the joint of the cabinet 1 and the spore collection rack 2, so that the spore collection rack 2 can move on the cabinet 1.

Further, the guiding mechanism 202 includes a plurality of guide wheels 101, the guide wheels 101 are disposed on one side of the spore collecting frame 2, the guide wheels 101 are connected through a plurality of gears, and one of the gears is connected with a driving module, and the driving module is a stepper motor.

Further, the collector 203 is a cylinder, and a plurality of densely distributed through holes are formed on the surface of the collector 203, and the collector 203 is connected with the first collecting air duct 301 in a sealing manner.

Further stated, the bottom of the cabinet 1 is further provided with a cleaning fan 103, the spore collecting rack 2 of the cleaning fan 103 is perpendicular to the cleaning fan 103, and the inner side of the cabinet 1 is provided with a guide groove 204.

Further stated, the hydraulic lifting mechanism 5 includes a plurality of lifting rods 501, the lifting rods 501 are respectively connected with the detection case 3 and the electric box 4, the detection case 3 and the spore collection frame 2 are horizontally arranged, the electric box 4 is internally provided with a mobile power supply module 402, and one side of the electric box 4 is also provided with a plug guide 401 for energizing the cabinet 1. The cabinet 1, the detection cabinet 3 and the electric box 4 are independently arranged, wherein the cabinet 1 is provided with a power interface, the electric box 4 is provided with a plug, and the electric box is convenient to disassemble and assemble and can be independently stored.

Further, the second collecting duct 302 is perpendicular to the detecting table 306, and the microscope assembly 304 is disposed on the detecting table 306, and a fan 303 is disposed at one end of the second collecting duct 302.

Further, the detection case 3 is moved along the Z-axis direction of the electric box 4 by the lifting rod 501, wherein the detection case 3 is fixedly connected with the spore collection stand 2 by bolts, and the spore collection stand 2 is synchronously moved with the detection case 3 by the guide mechanism 202.

In summary, after installing the cabinet 1, the detection cabinet 3 and the electric box 4 at the designated positions, the spore collection rack 2 arranged in the cabinet 1 can move on the cabinet 1, and the limit groove 102 formed in the cabinet 1 is used for storing the spore collection rack 2, and spores on the collection rack can be removed by the cleaning fan 103 at the bottom of the cabinet 1, the cleanliness of the spore collection rack 2 can be kept, the spores stay on the detection table 306 after passing through the air duct, the microscope assembly 304 on the detection table 306 observes and detects the spores, and the data and images of the detected spores are detected online by the online detection module, so that the real-time detection effect is achieved, the detection efficiency of the spores is improved, and the detection precision is higher. When spores flowing in air are captured, the spores are captured by the detection system, clear pictures are obtained, then the pictures are automatically uploaded to the cloud server, workers can analyze and count the spores through mobile phones or computers, and the prediction and forecast period is effectively shortened.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. On-line spore detection device, its characterized in that: the spore collection device comprises a cabinet (1), a detection cabinet (3) and an electric box (4) which are independently arranged, wherein a movable spore collection frame (2) is arranged on the cabinet (1), a collection mechanism (201) for collecting spores is arranged on the spore collection frame (2), a guide mechanism (202) is further arranged on one side of the spore collection frame (2), the detection cabinet (3) is arranged above the electric box (4), the detection cabinet (3) is connected with the spore collection frame (2), the detection cabinet (3) is connected with the electric box (4), and a hydraulic lifting mechanism (5) is arranged at the joint of the detection cabinet (3) and the electric box (4);

the detection electric box (4) is characterized by further comprising a first collection air channel (301), a second collection air channel (302) and a spore detection mechanism (305), wherein the first collection air channel (301) is connected with the spore collection frame (2), the second collection air channel (302) is connected with the spore detection mechanism (305), the spore detection mechanism (305) comprises a microscope assembly (304), a detection table (306) and an online detection module, the microscope assembly (304) is connected with the online detection module, and the online detection module comprises a control module, a sampling module, a analysis module and a data processing transmission module;

the spore collection mechanism (201) comprises a plurality of collectors (203), the collectors (203) are respectively arranged in a matrix, the collectors (203) are communicated with a first collection air duct (301), and the first collection air duct (301) is communicated with a second collection air duct (302).

2. The on-line spore detection device as claimed in claim 1, wherein: the spore collection frame (2) is vertically arranged on the cabinet (1), a limiting groove (102) is formed in the cabinet (1), the limiting groove (102) is matched with the spore collection frame (2), and the spore collection frame (2) moves along the Z-axis direction of the mechanism through a guide mechanism (202).

3. The on-line spore detection device as claimed in claim 1, wherein: the guide mechanism (202) comprises a plurality of guide wheels (101), the guide wheels (101) are arranged on one side of the spore collection frame (2), the guide wheels (101) are connected through a plurality of gears, one of the guide wheels is connected with a driving module, and the driving module is a stepping motor.

4. The on-line spore detection device as claimed in claim 1, wherein: the collector (203) is a cylinder, a plurality of densely distributed through holes are formed in the surface of the collector (203), and the collector (203) is connected with the first collecting air duct (301) in a sealing mode.

5. The online spore detection device as claimed in claim 1 or 2, characterized in that: the bottom of the cabinet (1) is also provided with a cleaning fan (103), the spore collection frame (2) is perpendicular to the cleaning fan (103), and the inner side of the cabinet (1) is provided with a guide groove (204).

6. The on-line spore detection device as claimed in claim 1, wherein: the hydraulic lifting mechanism (5) comprises a plurality of lifting rods (501), the lifting rods (501) are respectively connected with the detection machine case (3) and the electric box (4), the detection machine case (3) and the spore collection frame (2) are horizontally arranged, the electric box (4) is internally provided with a mobile power supply module (402), and one side of the electric box (4) is also provided with a plug guide (401) for electrifying the cabinet (1).

7. The on-line spore detection device as claimed in claim 1, wherein: the second collection air duct (302) is perpendicular to the detection table (306), the microscope assembly (304) is arranged on the detection table (306), and a fan (303) is arranged at one end of the second collection air duct (302).

8. The on-line spore detection device as claimed in claim 6, wherein: the detection machine box (3) moves along the Z-axis direction of the electric box (4) through the lifting rod (501), the detection machine box (3) is fixedly connected with the spore collection frame (2) through bolts, and the spore collection frame (2) moves synchronously with the detection machine box (3) through the guide mechanism (202).