CN214408246U

CN214408246U - Sampling device based on big data analysis

Info

Publication number: CN214408246U
Application number: CN202120196497.4U
Authority: CN
Inventors: 曹勇
Original assignee: Chongqing City Vocational College
Current assignee: Chongqing City Vocational College
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-10-15
Anticipated expiration: 2031-01-25

Abstract

The utility model relates to a sampling analysis technical field specifically is a sampling device based on big data analysis, including supporting part, sampling portion, sampling monitoring portion, collection monitoring portion, data analysis portion, folding portion and collection portion, folding portion locates the top of supporting part, sampling portion is articulated with folding portion, sampling monitoring portion locates one side of sampling portion, the top of supporting part is placed in to data analysis portion, collection portion locates the top of folding portion, collection monitoring portion locates one side of collection portion, sampling portion is equipped with automatic filtration classification's transfer passage. In the use, the utility model discloses solved sampling device better and did not possess data analysis's ability, it is not enough to the sample analysis degree of collection, influences work efficiency scheduling problem.

Description

Sampling device based on big data analysis

Technical Field

The utility model discloses sampling analysis technical field specifically is a sampling device based on big data analysis.

Background

Chinese patent with application number CN201922276139.X discloses a radioactive gas sampling device based on big data analysis, concretely relates to radiation monitoring field, including sampling box and sampling import, one side both ends that the sampling import is close to the sampling box all are provided with and expand the appearance chamber, two expand the inside in appearance chamber and all be provided with the leading wheel, the inside of sampling import is provided with the aerosol filter membrane, the leading wheel is passed to the one end of aerosol filter membrane to the winding sets up on the receipts reel, the other end of aerosol filter membrane passes the leading wheel to fixed the setting on the recovery section of thick bamboo, the inside fixed mounting of sampling import has air flow sensor, the inside fixed mounting of sampling box has radioactive gas detector and aspiration pump, fixed PLC controller and the wireless communication module of being provided with on the inside lateral wall of sampling box. The utility model discloses can enough guarantee to the filtration of aerosol, also can guarantee radioactive gas's leading-in, improve radioactive gas's testing result.

However, the current sampling device does not have the capability of data analysis, the degree of analysis of the collected samples is insufficient, and the working efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned weak point that exists among the prior art, the utility model provides a sampling device based on big data analysis for solve the ability that sampling device does not possess data analysis, be not enough to the sample analysis degree of collection, influence work efficiency scheduling problem.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a sampling device based on big data analysis, includes supporting part, sampling portion, sampling monitoring portion, collection monitoring portion, data analysis portion, folding portion and collection portion, the top of supporting part is placed in to the folding portion, the sampling portion is articulated with the folding portion, sampling monitoring portion places in one side of sampling portion, the top of supporting part is placed in to data analysis portion, the top of folding portion is placed in to the collection portion, the collection monitoring portion is placed in one side of collection portion, the sampling portion is equipped with automatic filtration classification's transfer passage.

Further, sampling portion still includes first sampling shovel, second sampling shovel, first discharge gate and second discharge gate, first sampling shovel is fixed in the transfer passage bottom, the second sampling shovel is articulated with the transfer passage bottom, the transfer passage top is all arranged in to first discharge gate and second discharge gate.

Further, the sampling monitoring part comprises a sampling monitoring support and a sampling monitoring support, the bottom of the sampling monitoring support is hinged to the folding part, and the sampling monitoring support is rotatably connected with the sampling monitoring support.

Further, folding portion includes two folding guide arms, folding leg, sliding block and lifter, the sliding block rotates with the supporting part top and is connected, two folding guide arm and sliding block both sides sliding connection, folding leg bottom and folding guide arm sliding connection, sampling portion top is articulated with the folding leg, the lifter bottom is articulated with the supporting part, the lifter top is articulated with sampling portion.

Further, the collecting part comprises a first collecting hopper, a collecting rotary disc, a second collecting hopper, a transmission cylinder and a collecting support rod, the first collecting hopper and the second collecting hopper are symmetrically arranged at the top of the collecting support rod, the collecting rotary disc is rotatably connected with the collecting support rod, the collecting rotary disc is provided with a plurality of blanking holes, and the transmission cylinder is arranged at the bottom of the collecting rotary disc and communicated with the blanking holes.

Further, collect control portion including collecting control and collecting control branch, collect control and collect control branch and rotate and be connected, collect control branch bottom and fix the top at the supporting part.

Further, the supporting part comprises a supporting plate, a rotator and a supporting motor, the rotator is arranged at the bottom of the supporting plate, the supporting motor is arranged on one side of the rotator, the rotator is rotatably connected with the supporting motor, the data analysis part comprises a data analyzer and a signal receiver, a data analysis device and an execution device are arranged in the data analyzer, and the signal receiver is arranged at the top of the data analyzer.

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

the utility model comprises a supporting part, a sampling monitoring part, a collecting monitoring part, a data analysis part, a folding part and a collecting part, wherein the supporting part provides mounting positions for other parts of the utility model, the sampling part takes samples, the sampling monitoring part carries out video monitoring analysis on the sampling process and the collected samples, the collecting part collects classified samples, the collecting monitoring part carries out video monitoring analysis on the collection of the collecting part, the data analysis part receives signals, analyzes the obtained data and makes next step instructions, thereby improving the intelligent degree and the sampling work efficiency of the sampling device, the data in the sampling process and the collecting process of the sampling device are recorded by adopting a big data analysis mode, the data are recorded in a database in the data analysis part, after the data are recorded for a plurality of times, the accumulated data are subjected to a plurality of data analyses in real time, and analyzing a series of working data of the sampling device, such as sampling action, sampling height, collecting position and the like, and performing machine learning to obtain an optimized working instruction, thereby improving the sampling working efficiency of the sampling device.

The utility model discloses solved sampling device betterly and not possessed data analysis's ability, it is not enough to the sample analysis degree of collection, influences work efficiency scheduling problem. The utility model discloses simple structure, convenient operation, reliable and stable, long service life.

Drawings

Fig. 1 is a schematic structural diagram (view one) of a sampling device based on big data analysis according to the present invention;

fig. 2 is a schematic structural diagram (view two) of a sampling device based on big data analysis according to the present invention;

fig. 3 is a schematic structural diagram of a supporting portion in a sampling device based on big data analysis according to the present invention;

reference numerals in the drawings of the specification include:

a support part 1; a support plate 101; a rotator 102; a support motor 103; a sampling unit (2); a first sampling shovel 201; a second sampling shovel 202; a first discharge port 204; a second discharge port 205; a sampling monitoring section 3; sampling monitoring 301; a sampling monitoring support 302; a collection monitoring part 4; collecting monitoring 401; a collection monitoring strut 402; a data analysis unit 5; a folded portion 6; a folding guide 601; a folding leg 602; a slider 603; a lifting rod 604; a collecting section 7; a first collection hopper 701; a collection carousel 702; a second collection hopper 703; a transfer drum 704; collecting struts 705.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

The first embodiment is as follows:

as shown in fig. 1-3, a sampling device based on big data analysis, including supporting part 1, sampling portion 2, sampling monitoring portion 3, collect monitoring portion 4, data analysis portion 5, folded portion 6 and collection portion 7, the top of supporting part 1 is placed in to folded portion 6, sampling portion 2 is articulated with folded portion 6, sampling monitoring portion 3 places in one side of sampling portion 2, data analysis portion 5 places in the top of supporting part 1, collection portion 7 places in the top of folded portion 6, collect monitoring portion 4 places in one side of collection portion 7, sampling portion 2 is equipped with automatic filtration classification's transfer passage 203.

The utility model comprises a supporting part 1, a sampling part 2, a sampling monitoring part 3, a collecting monitoring part 4, a data analyzing part 5, a folding part 6 and a collecting part 7, wherein the supporting part 1 provides mounting positions for other parts of the utility model, the sampling part 2 takes samples, the sampling monitoring part 3 carries out video monitoring analysis to the sampling process and the collected samples, the collecting part 6 collects the classified samples, the collecting monitoring part 4 carries out video monitoring analysis to the collection of the collecting part 6, the data analyzing part 5 receives signals, analyzes the obtained data and makes a next step instruction, the intelligent degree and the sampling work efficiency of the sampling device are improved, the data in the sampling process and the collecting process of the sampling device are recorded by adopting a big data analysis mode, the data are recorded in a database in the data analyzing part 5, after the data are recorded for a plurality of times, and performing data analysis on the accumulated data for multiple times in real time, analyzing a series of working data of the sampling device, such as sampling action, sampling height, collecting position and the like, performing machine learning, obtaining an optimized working instruction from the working data, and improving the sampling working efficiency of the sampling device.

The sampling part 2 further comprises a first sampling shovel 201, a second sampling shovel 202, a first discharging port 204 and a second discharging port 205, the first sampling shovel 201 is fixed at the bottom of the conveying channel 203, the second sampling shovel 202 is hinged with the bottom of the conveying channel 203, and the first discharging port 204 and the second discharging port 205 are arranged at the top of the conveying channel 203.

The first sampling shovel 201 collects and processes the sample, the second sampling shovel 202 breaks up and mixes the sample, and the transfer passage 203 transfers the sample to the collection unit 6 for collection.

The sampling monitoring part 3 comprises a sampling monitor 301 and a sampling monitor support 302, the bottom of the sampling monitor support 302 is hinged with the folding part 6, and the sampling monitor 301 is rotatably connected with the sampling monitor support 302.

The sampling monitoring part 3 monitors the sampling process, and the sampling monitoring support 302 is rotatably connected with the sampling monitoring support 301, so that the monitoring range of the sampling monitoring part 3 is enlarged, and the feedback efficiency of the sampling device is improved.

Example two:

The folding part 6 comprises two folding guide rods 601, a folding frame 602, a sliding block 603 and a lifting rod 604, the sliding block 603 is rotatably connected with the top of the supporting part 1, the two folding guide rods 601 are slidably connected with the two sides of the sliding block 603, the bottom of the folding frame 602 is slidably connected with the folding guide rods 601, the top of the sampling part 2 is hinged with the folding frame 602, the bottom of the lifting rod 604 is hinged with the supporting part 1, and the top of the lifting rod 604 is hinged with the sampling part 2.

Folding portion 6 is articulated with sampling portion 2 through folding leg 602, realizes sampling portion 2 folding operation, and the lift of control sampling portion 2 bottom and top position has improved this sampling device's motility.

The collecting part 7 comprises a first collecting hopper 701, a collecting rotary table 702, a second collecting hopper 703, a transmission cylinder 704 and a collecting support rod 705, the first collecting hopper 701 and the second collecting hopper 703 are symmetrically arranged at the top of the collecting support rod 705, the collecting rotary table 702 is rotatably connected with the collecting support rod 705, the collecting rotary table 702 is provided with a plurality of blanking holes, and the transmission cylinder 704 is arranged at the bottom of the collecting rotary table 702 and is communicated with the blanking holes.

The first collecting hopper 701 and the second collecting hopper 703 collect different kinds of sampling products, and the sampling products are output through the collecting turntable 702 and the transmission drum 704.

The collection monitoring part 4 comprises a collection monitor 401 and a collection monitoring strut 402, the collection monitor 401 is rotatably connected with the collection monitoring strut 402, and the bottom of the collection monitoring strut 402 is fixed on the top of the support part 1.

The collection monitoring part 4 monitors the collection process, the collection monitoring part 401 is rotatably connected with the collection monitoring support rod 402, the monitoring range of the collection monitoring part 4 is enlarged, and the feedback efficiency of the sampling device is improved.

The support part 1 comprises a support plate 101, a rotator 102 and a support motor 103, wherein the rotator 102 is arranged at the bottom of the support plate 101, the support motor 103 is arranged at one side of the rotator 102, the rotator 102 is rotatably connected with the support motor 103, the data analysis part 5 comprises a data analyzer 501 and a signal receiver 502, a data analysis device and an execution device are arranged in the data analyzer 501, and the signal receiver 502 is arranged at the top of the data analyzer.

The supporting part 1 drives the rotator 102 to drive the supporting plate 101 to rotate through the supporting motor 103, so that a rotating function is provided for the sampling device, and the sampling efficiency of the sampling device is improved.

Advantages of the second embodiment over the first embodiment:

the intelligent degree and the sampling work efficiency of the sampling device are improved, the feedback efficiency of the sampling device is improved, the activity of the sampling device is improved, the working fault frequency of the sampling device is reduced, and the service life of the sampling device is prolonged.

The use method of the sampling device comprises the following steps:

supporting part 1 is this utility model other spare parts provide the mounted position, and sampling portion 2 advances to take the sample, and sampling monitoring portion 3 carries out the video monitoring analysis to the sample of sampling process and collection, and collecting portion 6 is collected categorised sample, and collecting monitoring portion 4 carries out the video monitoring analysis to the collection of collecting portion 6, and data analysis portion 5 received signal analyzes the data that obtain, makes next step instruction.

In the description of the present invention, it is to be understood that the terms "front end", "rear end", "horizontal", "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The above description is only for the embodiments of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art will know all the common technical knowledge in the technical field of the present invention before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the schemes, and some typical known structures or known methods should not become obstacles for those skilled in the art to implement the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims

1. A sampling device based on big data analysis, its characterized in that: including supporting part (1), sampling portion (2), sampling monitoring portion (3), collection monitoring portion (4), data analysis portion (5), folding portion (6) and collection portion (7), the top of supporting part (1) is arranged in folding portion (6), sampling portion (2) are articulated with folding portion (6), one side of sampling portion (2) is arranged in sampling monitoring portion (3), the top of supporting part (1) is arranged in data analysis portion (5), the top of folding portion (6) is arranged in collection portion (7), one side of collection portion (7) is arranged in collection monitoring portion (4), sampling portion (2) are equipped with automatic filtration classification's transfer passage (203).

2. The big data analysis-based sampling device according to claim 1, wherein: sampling portion (2) still include first sampling shovel (201), second sampling shovel (202), first discharge gate (204) and second discharge gate (205), first sampling shovel (201) are fixed in transfer passage (203) bottom, second sampling shovel (202) are articulated with transfer passage (203) bottom, transfer passage (203) top is all arranged in to first discharge gate (204) and second discharge gate (205).

3. The big data analysis-based sampling device according to claim 2, wherein: the sampling monitoring part (3) comprises a sampling monitoring support (302) and a sampling monitoring support (301), the bottom of the sampling monitoring support (302) is hinged to the folding part (6), and the sampling monitoring support (302) is rotatably connected with the sampling monitoring support (301).

4. The big data analysis-based sampling device according to claim 3, wherein: folding portion (6) include two folding guide arm (601), folding leg (602), sliding block (603) and lifter (604), sliding block (603) rotate with supporting part (1) top and are connected, two folding guide arm (601) and sliding block (603) both sides sliding connection, folding leg (602) bottom and folding guide arm (601) sliding connection, sampling portion (2) top is articulated with folding leg (602), lifter (604) bottom is articulated with supporting part (1), lifter (604) top is articulated with sampling portion (2).

5. The big data analysis-based sampling device according to claim 4, wherein: the collecting part (7) comprises a first collecting hopper (701), a collecting turntable (702), a second collecting hopper (703), a transmission cylinder (704) and a collecting supporting rod (705), wherein the first collecting hopper (701) and the second collecting hopper (703) are symmetrically arranged at the top of the collecting supporting rod (705), the collecting turntable (702) is rotatably connected with the collecting supporting rod (705), the collecting turntable (702) is provided with a plurality of blanking holes, and the transmission cylinder (704) is arranged at the bottom of the collecting turntable (702) and communicated with the blanking holes.

6. The big data analysis-based sampling device according to claim 5, wherein: collect control portion (4) including collecting control (401) and collecting control branch (402), collect control (401) and collect control branch (402) and rotate and be connected, collect control branch (402) bottom and fix the top at supporting part (1).

7. The big data analysis-based sampling device according to claim 6, wherein: the supporting part (1) comprises a supporting plate (101), a rotator (102) and a supporting motor (103), the rotator (102) is arranged at the bottom of the supporting plate (101), the supporting motor (103) is arranged on one side of the rotator (102), the rotator (102) is rotatably connected with the supporting motor (103), the data analysis part (5) comprises a data analyzer (501) and a signal receiver (502), a data analysis device and an execution device are arranged in the data analyzer (501), and the signal receiver (502) is arranged at the top of the data analyzer.