CN111982562A

CN111982562A - Comprehensive environment sampling detection device

Info

Publication number: CN111982562A
Application number: CN202010971810.7A
Authority: CN
Inventors: 张栋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2020-11-24

Abstract

The invention discloses a comprehensive environment sampling detection device, which comprises a movable trolley, wherein the movable trolley is provided with a roof panel, the roof panel is provided with a controller, a storage battery, an electric push rod, a water quality sampling device and an air sampling device, the lower end of the electric push rod is connected with a rotating motor I, the lower end of the rotating motor I is connected with a sampling cylinder, a sampling cavity is arranged in the sampling cylinder, and the side wall of the upper part of the sampling cylinder is provided with a plurality of cylindrical penetrating rod cavities. Can carry out quick sample to soil, air, water, and sampling operation is simple and convenient, and work efficiency is high.

Description

Comprehensive environment sampling detection device

Technical Field

The invention relates to a comprehensive environment sampling detection device.

Background

With the progress of industrial technology and modern technology, people pay more and more attention to the environment, and environmental monitoring, especially outdoor environmental monitoring, becomes an essential topic. The environment monitoring comprises the monitoring of air, water source, soil and the like, online monitoring is realized, and laboratory detection is also realized after sampling. However, no special equipment is used for sampling detection at present, the sampling is complicated, and the working efficiency is not high.

Disclosure of Invention

In order to solve the technical defects, the invention provides the comprehensive environment sampling detection device which is simple and convenient to sample and high in working efficiency.

The invention is realized by the following measures:

a comprehensive environment sampling detection device comprises a movable trolley, wherein the movable trolley is provided with a roof panel, the roof panel is provided with a controller, a storage battery, an electric push rod, a water quality sampling device and an air sampling device, the lower end of the electric push rod vertically downwards penetrates through the roof panel and is connected with an upper supporting cover, the bottom of the upper supporting cover is connected with an upper supporting panel, a rotating motor I positioned below the upper supporting cover is vertically arranged on the upper supporting panel, the lower end of the rotating motor I is connected with a lower supporting cover, the bottom of the lower supporting cover is vertically connected with a cylindrical sampling cylinder, a cylindrical sampling cavity is formed in the sampling cylinder, a plurality of cylindrical penetrating rod cavities are uniformly formed in the inner side wall of the upper part of the sampling cylinder along the axis direction, and soil inlets communicated with the penetrating rod cavities and the sampling cavity are formed in the side wall of the sampling cylinder below each penetrating rod cavity, an arc-shaped soil inlet baffle matched with the soil inlet is arranged at the soil inlet, a rotating rod movably penetrates through the hollow cavity of the penetrating rod, the lower end of the rotating rod is connected with the upper end of the soil inlet baffle, the lower end of the soil inlet baffle is rotatably connected to the side wall of the sampling cylinder at the bottom of the soil inlet, the upper end of the rotating rod extends to the upper part of the sampling cylinder and is connected with a transverse driven gear positioned in a lower supporting cover, a rotating motor II is arranged in the lower supporting cover, the lower end of the rotating motor II is in driving connection with a transverse driving gear, and a plurality of driven gears are distributed around the driving gear and are all meshed with the driving gear;

the soil moisture detection device is connected with a handheld terminal through a signal line penetrating through the storage cylinder and the sampling cylinder, and the controller is in signal connection with an electric push rod, a rotating motor I and a rotating motor II;

the water quality sampling device comprises a water storage tank and a water pump which are arranged on a roof panel, wherein a plurality of longitudinal partition plates are arranged in the water storage tank, the longitudinal partition plates separate cavities in the water storage tank into a plurality of independent water storage cavities, the top of the water storage tank is provided with a tank cover capable of axially rotating, the tank cover is provided with a water inlet which can be communicated with each water storage cavity when the tank cover axially rotates, the water inlet is connected with a water inlet pipe connected with the water pump, the bottom of the roof panel is vertically connected with a supporting vertical rod, the lower end of the supporting vertical rod is connected with a transverse disc, a plurality of test tube slots are arranged on the disc, the bottom of the water storage tank is provided with a plurality of water outlet pipes which extend downwards to the lower part of the roof panel.

Open the sample connection that has rectangular shape along the axial on the lateral wall of above-mentioned sampling cylinder lower part, there is the sample baffle that can block up the sample connection department through bolted connection, the sample baffle falls into bilateral symmetry and articulated left plate body and right plate body mutually along the axial, and left plate body inboard bottom left end and right plate body inboard bottom right-hand member all are connected with and extend into the sampling cavity and for the semicircular spline of getting, and two are got and are connected with the elastic cord between spline opening is relative and the end, and two get and enclose into the circular shape between the spline and connect the native mouth, and two are got and are connected with the native cloth list that connects that the cover connects the native mouth between the spline, the radius that connects the native mouth is less than the length of.

The support frame is arranged on the roof panel, the scroll is arranged on the support frame, the water pipe is wound on the scroll, one end of the water pipe is connected with the water pump, and the filter screen is arranged at the other end of the water pipe.

The roof panel is provided with a lifting support frame, and the air sampling device is arranged on the lifting support frame.

The edge of the upper part of the storage cylinder extends upwards to form a plurality of connecting sheets, the outer surface of the side wall of the bottom of the sampling cylinder is provided with a plurality of clamping grooves which can be in splicing fit with the connecting sheets, and the clamping grooves are connected with the connecting sheets through bolts.

The invention has the beneficial effects that: can carry out quick sample to soil, air, water, and sampling operation is simple and convenient, and work efficiency is high.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a portion of harvested soil according to the present invention.

Fig. 3 is a schematic cross-sectional view of a cartridge of the present invention.

Fig. 4 is a schematic structural view of the rotating rod of the present invention.

Fig. 5 is a schematic structural diagram of the rotating rod and the main shaft of the present invention.

Fig. 6 is a schematic view of the construction of the cartridge of the present invention.

Fig. 7 is a schematic structural diagram of a sampling baffle of the present invention.

Fig. 8 is a schematic top view of the driving gear and the driven gear of the present invention.

Wherein: 1 roof flat board, 2 lift supports, 3 air sampling device, 4 electric putter, 5 batteries, 6 storage tanks, 6.1 water storage cavity, 6.2 case lid, 6.3 water inlet, 6.4 water pump, 6.5 spools, 6.6 outlet pipe, 6.7 test tube slot, 6.8 disc, 7 sampling cylinder, 7.1 baffle that advances native, 7.2 sample baffle, 7.3 driven gear, 7.4 rotating electrical machines II, 7.5 under bracing cover, 7.6 rotating electrical machines I, 7.7 go up the support flat board, 7.8 go up the support cover, 7.9 guide bar, 7.10 driving gear, 7.11 rotary rod, 7.12 closure plate, 7.13 sample strip, 7.14 elastic cord, 8 telescopic support leg, 9 storage cylinder, 9.1 sensing probe, 9.2 soil moisture detection device, 9.3, 10 tip.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

as shown in figures 1, 2 and 3, the comprehensive environment sampling and detecting device comprises a movable trolley, wherein the movable trolley is provided with a roof panel 1, the roof panel 1 is provided with a controller, a storage battery 5, an electric push rod 4, a water quality sampling device and an air sampling device 3, the lower end of the electric push rod 4 vertically penetrates through the roof panel 1 downwards and is connected with an upper supporting cover 7.8, the bottom of the upper supporting cover 7.8 is connected with an upper supporting panel 7.7, the upper supporting panel 7.7 is vertically provided with a rotary motor I7.6 positioned below the upper supporting cover 7.8, the lower end of the rotary motor I7.6 is connected with a lower supporting cover 7.5, the bottom of the lower supporting cover 7.5 is vertically connected with a cylindrical sampling cylinder 7, a cylindrical sampling cavity is arranged in the sampling cylinder 7, a plurality of cylindrical penetrating rod cavities are uniformly arranged in the upper side wall of the sampling cylinder 7 along the axial direction, and a plurality of cylindrical penetrating rod cavities are arranged on the side, The soil inlet is communicated with the sampling cavity, an arc-shaped soil inlet baffle 7.1 matched with the soil inlet is arranged at the soil inlet, a rotary rod 7.11 movably penetrates through the through rod cavity, the lower end of the rotary rod 7.11 is connected with the upper end of the soil inlet baffle 7.1, the lower end of the soil inlet baffle 7.1 is rotatably connected to the side wall of the sampling cylinder 7 at the bottom of the soil inlet, the upper end of the rotary rod 7.11 extends to the upper part of the sampling cylinder 7 and is connected with a transverse driven gear 7.3 positioned in a lower support cover 7.5, a rotary motor II 7.4 is arranged in the lower support cover 7.5, the lower end of the rotary motor II 7.4 is connected with a transverse driving gear 7.10 in a driving mode, and the driven gears 7.3 are distributed around the driving gear 7.10 and are all meshed with the driving gear 7.10; 7 bottoms of sampling cylinder are provided with shutoff board 7.12, and 7 below demountable connections of sampling cylinder have columniform storage cylinder 9, be provided with the soil moisture detection device 9.2 of taking sensing probe 9.1 in the storage cylinder 9, 9.1 wear out storage cylinder 9 and hug closely storage cylinder 9 lateral walls after bending, and 9 bottoms of storage cylinder are provided with conical pointed end portion 10, and soil moisture detection device 9.2 is through running through the handheld terminal of signal line connection of storage cylinder 9, sampling cylinder 7, controller signal connection electric putter 4, rotating electrical machines I7.6 and rotating electrical machines II 7.4.

As shown in fig. 4, 5, 6, 7 and 8, the water quality sampling device comprises a water storage tank 6 and a water pump 6.4 which are arranged on a roof panel 1, a plurality of longitudinal partition plates are arranged in the water storage tank 6, the longitudinal partition plates divide a cavity in the water storage tank 6 into a plurality of independent water storage cavities 6.1, a tank cover 6.2 which can axially rotate is arranged at the top of the water storage tank 6, a water inlet 6.3 which can be communicated with each water storage cavity 6.1 when the tank cover 6.2 is axially rotated is arranged on the tank cover 6.2, the water inlet 6.3 is connected with a water inlet pipe connected with the water pump 6.4, a vertical support rod is vertically connected at the bottom of the roof panel 1, a transverse disc 6.8 is connected at the lower end of the vertical support rod, a plurality of test tube slots 6.7 are arranged on the disc 6.8, a plurality of water outlet pipes 6.6 which extend downwards to the lower part of the roof panel 1 and are provided with a, the water outlet pipes 6.6 are opposite to the test tube slots 6.7 one by one from top to bottom.

Open the sample connection that has rectangular shape along the axial on the lateral wall of 7 lower parts of sampling tube, there is sample baffle 7.2 that can block up the sample connection department through bolted connection, sample baffle 7.2 falls into bilateral symmetry and articulated left plate body and right plate body mutually along the axial, and left side plate body inboard bottom left end and right plate body inboard bottom right-hand member all are connected with and extend into in the sampling cavity and be semicircular sample strip 7.13, and two are got and are connected with elastic cord 7.14 between 7.13 openings are relative and the end, enclose into the circular shape between two sample strips 7.13 and connect the soil mouth, and are connected with the soil cloth list that connects that the cover connects the soil mouth between two sample strips 7.13, the radius that connects the soil mouth is less than the length of sample connection mouth. The roof panel 1 is provided with a support frame, the support frame is provided with a reel 6.5, the reel 6.5 is wound with a water pipe, one end of the water pipe is connected with a water pump 6.4, and the other end of the water pipe is provided with a filter screen. The roof panel 1 is provided with a lifting support frame 2, and the air sampling device 3 is arranged on the lifting support frame 2. A plurality of connecting sheets 9.3 extend upwards from the edge of the upper part of the storage cylinder 9, a plurality of clamping grooves which can be in splicing fit with the connecting sheets 9.3 are arranged on the outer surface of the side wall of the bottom of the sampling cylinder 7, and the clamping grooves are connected with the connecting sheets 9.3 through bolts. The bottom of the roof flat plate is vertically provided with a guide rod 7.9, and the guide rod 7.9 penetrates through the edge of the upper supporting flat plate and is in sliding fit with the upper supporting flat plate. The movable trolley is provided with telescopic supporting legs 8, and the height of the movable trolley can be adjusted.

The working principle is as follows: when the soil sampling device is used, the movable trolley is driven to a position to be detected, the electric push rod 4 extends downwards, the rotating motor I7.6 drives the sampling cylinder 7 to rotate, the tip part 10 penetrates into soil and gradually drills downwards, in the process that the sampling cylinder 7 moves downwards in the soil, the sensing probe 9.1 of the soil moisture detection device 9.2 is always in contact with the soil, so that the water content of the soil is detected in real time, the detected water content information is displayed through the handheld terminal, when a worker observes that the sampling cylinder 7 reaches a certain water content range, the controller controls the rotating motor II 7.4 to rotate, further drives the driving gear 7.10 to rotate, the driving gear 7.10 drives the driven gear 7.3 to rotate, the driven gear 7.3 drives the rotating rod 7.11 to rotate, the soil inlet baffle 7.11 drives the soil inlet baffle 7.1 to rotate, the soil inlet is opened, soil around the soil inlet can be squeezed into the sampling cylinder 7 under the action of pressure, simultaneously advance native baffle 7.1 and also can stir peripheral soil in sampling cylinder 7, under the general condition, advance native baffle 7.1 and rotate a week and can accomplish soil collection. If meet the great condition of soil humidity ratio, can be after advancing soil baffle 7.1 rotation certain angle, rotating electrical machines I7.6 drive the sampling cylinder 7 rotatory, also can dial into the sampling cylinder 7 with the great soil of humidity. After the sampling is completed, the sampling cylinder 7 is lifted, then the bolts on the sampling baffle 7.2 are taken down, then the sampling baffle 7.2 is folded inwards, meanwhile, the sampling strips 7.13 on the two sides are also folded inwards, so that the soil of the sampling cylinder 7 is wrapped in the soil receiving cloth sheet, then the sampling strips 7.13 are taken out from the sampling port integrally, and the soil is taken out. And finally, blowing high-pressure gas into the sampling cylinder 7 by using an air nozzle so as to blow out the soil remaining in the sampling cylinder 7 and play a role in cleaning. When a water quality sample is collected, the water pipe is drawn out from the reel 6.5, then the box cover 6.2 is rotated, the water outlet on the box cover 6.2 is communicated with one of the water storage cavities 6.1, water to be detected is pumped into the water storage cavity 6.1 through the water pipe by the water pump 6.4, and then the water quality sample is discharged into the test tube inserted into the test tube slot 6.7 from the water outlet pipe 6.6 for the next detection. The box cover 6.2 is rotated, so that a water outlet on the box cover 6.2 can be communicated with other water storage cavities 6.1, and water quality of different places can be sampled. The lifting support frame 2 can lift the air sampling device 3 to a high position so as to detect air.

The foregoing is only a preferred embodiment of this patent, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of this patent, and these modifications and substitutions should also be regarded as the protection scope of this patent.

Claims

1. The utility model provides a comprehensive environment sampling detection device which characterized in that: the sampling device comprises a moving trolley, wherein the moving trolley is provided with a roof panel, the roof panel is provided with a controller, a storage battery, an electric push rod, a water quality sampling device and an air sampling device, the lower end of the electric push rod vertically penetrates through the roof panel downwards and is connected with an upper supporting cover, the bottom of the upper supporting cover is connected with an upper supporting panel, the upper supporting panel is vertically provided with a rotating motor I positioned below the upper supporting cover, the lower end of the rotating motor I is connected with a lower supporting cover, the bottom of the lower supporting cover is vertically connected with a cylindrical sampling cylinder, a cylindrical sampling cavity is arranged in the sampling cylinder, a plurality of cylindrical penetrating rod cavities are uniformly formed in the inner part of the side wall of the upper part of the sampling cylinder along the axis direction, soil inlet holes communicated with the penetrating rod cavities and the sampling cavity are formed in the side wall of the sampling cylinder below each penetrating rod cavity, and an arc soil inlet baffle matched with the, a rotary rod movably penetrates through the rod penetrating cavity, the lower end of the rotary rod is connected with the upper end of the soil inlet baffle, the lower end of the soil inlet baffle is rotatably connected to the side wall of the sampling cylinder at the bottom of the soil inlet, the upper end of the rotary rod extends to the upper part of the sampling cylinder and is connected with a transverse driven gear positioned in a lower support cover, a rotary motor II is arranged in the lower support cover, the lower end of the rotary motor II is in driving connection with a transverse driving gear, and a plurality of driven gears are distributed around the driving gear and are all meshed with the driving gear;

2. The integrated environment sampling inspection device of claim 1, wherein: the sampling cartridge

Open the sample connection that has rectangular shape along the axial on the lateral wall of lower part, there is the sample baffle that can block up the sample connection department through bolted connection, the sample baffle falls into bilateral symmetry and looks articulated left plate body and right plate body along the axial, and left plate body inboard bottom left end and right plate body inboard bottom right-hand member all are connected with and extend into in the sampling cavity and for the semicircular spline of getting, and two are got the spline opening and are connected with the elastic cord relatively and between the end, and two get and enclose into the circular shape between the spline and connect the native mouth, and two are got and are connected with the native cloth list that connects that covers and connect the native mouth between the spline, the radius that connects the native mouth is less than the length.

3. The integrated environment sampling inspection device of claim 1, wherein: the roof is flat

The plate is provided with a support frame, the support frame is provided with a scroll, the scroll is wound with a water pipe, one end of the water pipe is connected with the water pump, and the other end of the water pipe is provided with a filter screen.

4. The integrated environment sampling inspection device of claim 1, wherein: the roof is flat

The plate is provided with a lifting support frame, and the air sampling device is arranged on the lifting support frame.

5. The integrated environment sampling inspection device of claim 1, wherein: the sampling device is characterized in that a plurality of connecting pieces extend upwards from the edge of the upper part of the storage cylinder, a plurality of clamping grooves which can be matched with the connecting pieces in an inserting mode are formed in the outer surface of the side wall of the bottom of the sampling cylinder, and the clamping grooves are connected with the connecting pieces through bolts.