CN216386482U - Sampling device for atmospheric wet settlement - Google Patents

Abstract

The utility model relates to the technical field of atmospheric detection, in particular to a sampling device for atmospheric wet settlement.A electric cabinet is fixedly arranged on the bottom surface of a sampling box; the electric lifting rods are respectively and symmetrically fixedly arranged on the bottom surface of the sampling box in a left-right mode; the mounting plate is fixedly arranged at the output end of the electric lifting rod; the sampling pipe is communicated and connected with the upper side of the sampling box; the filter screen is arranged in the sample inlet pipe; the connecting plates are respectively and symmetrically fixed on the outer walls of the two sides of the sample inlet pipe; the electric push rods are respectively and symmetrically fixedly arranged on the top surface of the connecting plate in a left-right mode and are connected with the electric cabinet; the baffle plates are respectively and fixedly arranged on the output ends of the electric push rods in a bilateral symmetry manner; the rainfall sensor is fixedly arranged on the baffle on the left side; the supporting plate is fixedly arranged on the outer wall of the right side of the sampling box; the sampling bottle is arranged on the supporting plate; can seal the injection tube when not gathering the sample, prevent that outside impurity from getting into sampling device in, influencing subsequent detection effect.

Description

Sampling device for atmospheric wet settlement

Technical Field

The utility model relates to the technical field of atmospheric detection, in particular to a sampling device for atmospheric wet settlement.

Background

Through the monitoring research to atmospheric sedimentation, not only can make clear and determine the intensity, nature, constitution, the settlement rate etc. of dust fall, can infer its source place, migration route and mode moreover, for satisfying daily dust fall's monitoring needs, the collection work that usually needs to carry out a large amount of wet subsides in succession, need consume a large amount of manpowers, current wet settlement sampling device need consume a large amount of manpowers and material resources, and sampling device exposes externally for a long time, have impurity to get into in the sample easily, influence the detection effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide the sampling device for atmospheric wet sedimentation, which is reasonable in design and convenient to use, aiming at overcoming the defects and shortcomings of the prior art, and can seal the sampling pipe when a sample is not collected, so that external impurities are prevented from entering the sampling device and affecting the subsequent detection effect.

In order to achieve the purpose, the utility model adopts the following technical scheme: the sampling box comprises a sampling box, supporting legs and inserting columns, wherein the supporting legs are fixedly arranged at four corners of the bottom of the sampling box, and a plurality of inserting columns are fixedly arranged at the lower ends of the supporting legs;

it also includes:

the electric cabinet is fixedly arranged on the bottom surface of the sampling box;

the two electric lifting rods are respectively and symmetrically fixed on the bottom surface of the sampling box in a left-right mode and are connected with the electric control box;

the mounting plate is fixedly arranged at the output end of the electric lifting rod, and the supporting legs are all arranged in the mounting plate in a penetrating way;

the two universal wheels are respectively rotatably arranged on the bottom surface of the mounting plate through wheel seats;

the sampling pipe is communicated and connected with the upper side of the sampling box;

the filter screen is arranged in the sample inlet pipe;

the two placing blocks are respectively and symmetrically and fixedly arranged on the front side and the rear side of the filter screen, and are respectively and slidably arranged in placing grooves symmetrically formed in the inner walls of the front side and the rear side of the sample inlet pipe;

the two connecting plates are respectively and symmetrically fixedly arranged on the outer walls of the two sides of the sample inlet pipe in a left-right mode, and the top surface of each connecting plate is flush with the upper side of the sample inlet pipe;

the two electric push rods are respectively and fixedly arranged on the top surface of the connecting plate in a bilateral symmetry manner and are connected with the electric cabinet;

the two baffles are respectively and fixedly arranged on the output end of the electric push rod in a bilateral symmetry manner;

the rainfall sensor is fixedly arranged on the baffle on the left side and is connected with the electric cabinet;

the supporting plate is fixedly arranged on the outer wall of the right side of the sampling box;

the sampling bottle is arranged on the supporting plate;

the sampling mechanism is arranged above the sampling bottle.

Preferably, the lower ends of the inserting columns are fixedly provided with inserting blocks.

Preferably, the lower side of baffle all fixedly be provided with the guide block, the upside of connecting plate and advance appearance pipe link up and has seted up the guide way, the guide block slides and sets up in the guide way.

Preferably, an observation strip is embedded and fixed in an opening of the front side wall of the sampling box.

Preferably, the front side of the sampling box is provided with scale marks.

Preferably, the sampling mechanism comprises:

the discharge pipe is connected in the right side wall of the sampling box in a penetrating way;

the telescopic pipe is connected in the upper side wall of the sampling bottle in a penetrating way;

the feeding pipe is connected to the upper end of the telescopic pipe in a penetrating manner, and the left end of the feeding pipe is inserted into the discharging pipe;

the buckle, the buckle be two, the difference longitudinal symmetry is fixed to be set up on the outer wall of inlet pipe, and the buckle card is established in the draw-in groove that the discharging pipe longitudinal symmetry was seted up.

Compared with the prior art, the utility model has the beneficial effects that: the sampling device for atmospheric wet sedimentation can seal the sampling pipe when a sample is not collected, and prevent external impurities from entering the sampling device to influence the subsequent detection effect.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view of a portion B in fig. 2.

Fig. 5 is a schematic view of the position of the placement block in the present invention.

Description of reference numerals:

sampling box 1, supporting legs 2, insert post 3, inserted block 4, electric lift pole 5, electric cabinet 6, universal wheel 7, advance appearance pipe 8, filter screen 9, place piece 10, standing groove 11, connecting plate 12, electric putter 13, baffle 14, rainfall sensor 15, guide block 16, guide way 17, scale mark 18, discharging pipe 19, inlet pipe 20, buckle 21, draw-in groove 22, flexible pipe 23, sampling bottle 24, backup pad 25, mounting panel 26, observe strip 27, mechanism 28 of getting out the model.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 5, the following technical solutions are adopted in the present embodiment: the sampling box comprises a sampling box 1, supporting legs 2 and inserting columns 3, wherein the sampling box 1 is provided with a drain pipe, the supporting legs 2 are fixedly riveted at four corners of the bottom of the sampling box 1, and a plurality of inserting columns 3 are fixedly riveted at the lower ends of the supporting legs 2;

it also includes:

the electric cabinet 6 is riveted and fixed on the bottom surface of the sampling box 1;

the number of the electric lifting rods 5 is two, the electric lifting rods 5 are respectively riveted and fixed on the bottom surface of the sampling box 1 in a bilateral symmetry manner, and the electric lifting rods 5 are connected with the electric control box 6;

the mounting plate 26 is riveted and fixed on the output end of the electric lifting rod 5, and the supporting legs 2 are all arranged in the mounting plate 26 in a penetrating way;

two universal wheels 7 are arranged on the bottom surface of the mounting plate 26 through wheel seats in a rotating manner;

the sampling tube 8, the sampling tube 8 link up and connect to the upside of the sampling box 1;

the filter screen 9, the said filter screen 9 is set up in the sample inlet pipe 8;

the sample injection tube comprises two placing blocks 10, wherein the two placing blocks 10 are symmetrically riveted and fixed on the front side and the rear side of a filter screen 9 respectively, and the placing blocks 10 are arranged in placing grooves 11 symmetrically formed in the inner walls of the front side and the rear side of the sample injection tube 8 respectively in a sliding manner;

the two connecting plates 12 are respectively riveted and fixed on the outer walls of the two sides of the sampling tube 8 in a bilateral symmetry manner, and the top surface of the connecting plate 12 is flush with the upper side of the sampling tube 8;

the two electric push rods 13 are respectively riveted and fixed on the top surface of the connecting plate 12 in a bilateral symmetry manner, and the electric push rods 13 are connected with the electric cabinet 6;

the number of the baffles 14 is two, and the baffles 14 are respectively riveted and fixed on the output end of the electric push rod 13 in a bilateral symmetry manner;

the rainfall sensor 15 is riveted and fixed on the baffle 14 on the left side, and the rainfall sensor 15 is connected with the electric cabinet 6;

the supporting plate 25 is riveted and fixed on the outer wall of the right side of the sampling box 1;

a sampling bottle 24, wherein the sampling bottle 24 is arranged on a supporting plate 25;

and the sample outlet mechanism 28 is arranged above the sampling bottle 24, and the sample outlet mechanism 28 is arranged above the sampling bottle 24.

Preferably, the lower ends of the posts 3 are riveted with the insert blocks 4.

Preferably, the guide blocks 16 are riveted and fixed to the lower sides of the shutters 14, the guide grooves 17 are formed in the connection plates 12 and the upper sides of the sampling tubes 8, and the guide blocks 16 are slidably disposed in the guide grooves 17 to guide the shutters 14 when the shutters 14 move.

Preferably, a viewing strip 27 is further inserted and fixed in an opening of the front side wall of the sampling box 1.

Preferably, the sampling box 1 is provided with a scale 18 on the front side thereof to know the amount of the collected sample.

Preferably, the sample discharging mechanism 28 further includes:

the discharge pipe 19 is connected in a penetrating way in the right side wall of the sampling box 1;

the telescopic pipe 23 is connected in the upper side wall of the sampling bottle 24 in a penetrating way;

the feeding pipe 20 is connected to the upper end of the telescopic pipe 23 in a penetrating manner, and the left end of the feeding pipe 20 is inserted into the discharging pipe 19;

the number of the buckles 21 is two, the two buckles 21 are riveted and fixed on the outer wall of the feeding pipe 20 in an up-down symmetrical mode respectively, and the buckles 21 are clamped in clamping grooves 22 which are formed in the discharging pipe 19 in an up-down symmetrical mode.

The working principle of the specific embodiment is as follows: when the sampling box is used, the universal wheel 7 is used for moving the device to a position needing sampling, then the electric lifting rod 5 is used for driving the mounting plate 26 to ascend, the mounting plate 26 drives the universal wheel 7 to ascend, then the inserting columns 3 and the inserting blocks 4 are inserted into soil, when raining occurs, the rainfall sensor 15 senses rainwater, signals are transmitted to the electric cabinet 6, the electric cabinet 6 controls the electric push rod 13 to be opened, the electric push rod 13 drives the baffle plates 14 on the two sides to move outwards to expose the sampling tube 8, so that the rainwater can conveniently enter, the filter screen 9 can filter impurities such as leaves, the rainwater flows into the sampling box 1 after passing through the sampling tube 8, and when the rainwater does not fall, the electric push rod 13 drives the baffle plates 14 to shield the sampling tube 8, so that the impurities are prevented from entering;

observe the inside condition of collecting of sampling box 1 through observing strip 27, when the water level line of sampling box 1 inside is higher than the height of discharging pipe 19, the water of sampling passes through during inlet pipe 20 and flexible pipe 23 get into sampling bottle 24, after a bottle sampling bottle 24 gathers fully, extracts flexible pipe 23 from sampling bottle 24, changes empty sampling bottle 24, and the back is accomplished in the sampling work, utilizes buckle 21 to extract inlet pipe 20 from discharging pipe 19.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the electric push rod 13, the baffle 14 and the rain sensor 15 are utilized, so that the sampling tube 8 can be sealed when a sample is not collected, and external impurities are prevented from entering the sampling device;

2. the inserting column 3 and the inserting block 4 are arranged, so that the sampling stability of the device is enhanced.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. A sampling device for atmospheric wet settlement comprises a sampling box (1), supporting legs (2) and inserting columns (3), wherein the supporting legs (2) are fixedly arranged at four corners of the bottom of the sampling box (1), and a plurality of inserting columns (3) are fixedly arranged at the lower ends of the supporting legs (2);

it is characterized in that it also comprises:

the electric cabinet (6), the said electric cabinet (6) is fixed to set up on the bottom surface of the sampling box (1);

the two electric lifting rods (5) are respectively and symmetrically fixedly arranged on the bottom surface of the sampling box (1) in a left-right mode, and the electric lifting rods (5) are connected with the electric cabinet (6);

the mounting plate (26) is fixedly arranged at the output end of the electric lifting rod (5), and the supporting legs (2) are arranged in the mounting plate (26) in a penetrating manner;

the two universal wheels (7) are rotatably arranged on the bottom surface of the mounting plate (26) through wheel seats respectively;

the sampling tube (8), the sampling tube (8) is connected to the upper side of the sampling box (1) in a penetrating way;

the filter screen (9), the said filter screen (9) is set up in the sample inlet pipe (8);

the two placing blocks (10) are respectively and symmetrically and fixedly arranged on the front side and the rear side of the filter screen (9), and the placing blocks (10) are respectively and slidably arranged in placing grooves (11) symmetrically formed in the inner walls of the front side and the rear side of the sample inlet pipe (8);

the two connecting plates (12) are respectively and symmetrically fixed on the outer walls of the two sides of the sampling tube (8) in a left-right mode, and the top surface of each connecting plate (12) is flush with the upper side of the sampling tube (8);

the two electric push rods (13) are respectively and fixedly arranged on the top surface of the connecting plate (12) in a bilateral symmetry manner, and the electric push rods (13) are connected with the electric cabinet (6);

the two baffles (14) are respectively and fixedly arranged on the output end of the electric push rod (13) in a bilateral symmetry manner;

the rainfall sensor (15), the said rainfall sensor (15) is fixed to set up on the left baffle (14), and the rainfall sensor (15) is connected with electric cabinet (6);

the supporting plate (25), the supporting plate (25) is fixedly arranged on the outer wall of the right side of the sampling box (1);

the sampling bottle (24), the said sampling bottle (24) is set up on the back plate (25);

and the sample outlet mechanism (28) is arranged above the sampling bottle (24).

2. The atmospheric wet settlement sampling device of claim 1, wherein: the lower end of the inserting column (3) is fixedly provided with an inserting block (4).

3. The atmospheric wet settlement sampling device of claim 1, wherein: the lower sides of the baffles (14) are fixedly provided with guide blocks (16), the upper sides of the connecting plate (12) and the sampling tube (8) are communicated with each other to form guide grooves (17), and the guide blocks (16) are arranged in the guide grooves (17) in a sliding mode.

4. The atmospheric wet settlement sampling device of claim 1, wherein: an observation strip (27) is embedded and fixed in an opening of the front side wall of the sampling box (1).

5. The atmospheric wet settlement sampling device of claim 4, wherein: the front side of the sampling box (1) is provided with scale marks (18).

6. The atmospheric wet settlement sampling device of claim 1, wherein: the sample outlet mechanism (28) comprises:

the discharge pipe (19) is connected into the right side wall of the sampling box (1) in a penetrating manner;

the telescopic pipe (23) is connected in the upper side wall of the sampling bottle (24) in a penetrating way;

the feeding pipe (20) is connected to the upper end of the telescopic pipe (23) in a penetrating mode, and the left end of the feeding pipe (20) is inserted into the discharging pipe (19);

the device comprises two buckles (21), the two buckles (21) are respectively and vertically symmetrically fixed on the outer wall of the feeding pipe (20), and the buckles (21) are clamped in clamping grooves (22) which are formed in the discharging pipe (19) in a vertically symmetrical mode.

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