CN209841866U

CN209841866U - Soil parameter acquisition device

Info

Publication number: CN209841866U
Application number: CN201921564463.5U
Authority: CN
Inventors: 唐跃东; 郭庆辉; 潘德海; 陆虹; 赵宏坚; 张辉; 谢海云
Original assignee: Hainan Rezuo Liangyuan Seed Industry Technology Co Ltd
Current assignee: Hainan Rezuo Liangyuan Seed Industry Technology Co Ltd
Priority date: 2019-09-19
Filing date: 2019-09-19
Publication date: 2019-12-24
Anticipated expiration: 2029-09-19

Abstract

The utility model discloses a soil parameter acquisition device, which comprises a frame body, a walking wheel, a pushing handrail, a side vertical plate, a touch screen, a 24V direct-current power supply, a soil sensor and a sampling device, wherein the sampling device of the utility model realizes the sampling of soil, has high degree of mechanization, effectively reduces the labor intensity of manpower, and improves the efficiency of sampling and parameter detection; due to the fact that the lower end of the tube shell is in a pointed shape, the sampler can conveniently and smoothly extend into soil, and when soil parameters are detected, contact pins of the soil sensor are respectively inserted into the upper detection port and the lower detection port, so that the soil sensor can conveniently detect soil at different depths; the setting of touch-sensitive screen and soil sensor, soil sensor will detect data transmission and show to the touch-sensitive screen, have made things convenient for people to the reading of soil parameter, and it is very convenient to use.

Description

Soil parameter acquisition device

Technical Field

The utility model belongs to the technical field of soil parameter acquisition, soil parameter acquisition device specifically says so.

Background

In recent years, greenhouse planting brings great convenience for improving living standard of people and is rapidly popularized and applied, and as is well known, environmental factors such as temperature, humidity and pH value in planting soil have great influence on crop production, so that the key of greenhouse planting lies in timely knowing soil parameters.

The invention discloses a soil parameter acquisition device with the Chinese patent publication number of CN 209117680U, and the name created by the invention is a soil parameter acquisition device, which comprises a body, a parameter collector and a plurality of soil parameter sensors of different types, wherein the body comprises an operating rod and a soil sleeve arranged on one end of the operating rod, the soil sleeve encloses a soil accommodating space, a soil inlet communicated with the soil accommodating space is arranged on the end surface of the soil sleeve far away from the operating rod, a plurality of circles of acquisition lines are arranged on the inner wall of the soil accommodating space, the circles of acquisition lines are arranged oppositely to the soil inlet at equal intervals, the soil parameter sensors are embedded on the soil sleeve, a plurality of soil parameter sensors of different types are respectively and uniformly arranged on each acquisition line, sensing probes of the soil parameter sensors are exposed in the soil accommodating space, and the soil parameter sensors are.

But current soil parameter acquisition device still has need artifical application of force just can impress the body in the soil, because when gathering the data in the soil, the sampling point of setting is more, from this one, very big waste manual power, and work efficiency is low, because it inlays the soil parameter sensor and overlaps at the soil, when inserting in soil, can influence soil parameter sensor many or few, from this one can cause soil parameter sensor line fault or respond to insensitive problem.

To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a soil parameter acquisition device seems very necessary.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: soil parameter acquisition device, in solving current soil parameter acquisition device still to have and need artifical application of force just can impress the body soil in, because when gathering the data in soil, the sampling point of setting is more, from this, very big waste artifical physical power, and work efficiency is low, because it inlays the soil parameter sensor and inlays the dress on the soil cover, when inserting in soil, can be to the influential sensor of soil parameter many or few, from this one can cause soil parameter sensor line fault or respond to insensitive problem. The soil parameter acquisition device comprises a frame body, 4 walking wheels, pushing handrails, side vertical plates, a touch screen, a 24V direct-current power supply, soil sensors and a sampling device, wherein the walking wheels are arranged at two ends of the bottom of the frame body through transmission shafts; the pushing handrail is arranged in an inclined shape and welded at the upper end of one side of the frame body; the number of the side vertical plates is 2, and the side vertical plates are all arranged on the frame body through bolts; the touch screen is embedded on one side of the side vertical plate; the 24V direct-current power supply is fixed on one side of the side vertical plate; the soil sensor is arranged on one side of the side vertical plate through a screw; the sampling device is arranged between the side vertical plate and the side vertical plate.

The sampling device comprises a first screw rod sliding table, a mounting plate, a second screw rod sliding table, a limiting block and a sampler, wherein the first screw rod sliding table is mounted on the inner side of the side vertical plate through a bolt; the second screw rod sliding table is arranged on the other side vertical plate through a bolt; two ends of the mounting plate are fixedly connected with nut seats on the first lead screw sliding table and the second lead screw sliding table respectively through bolts; the stopper sets up 2, install the below at first lead screw slip table and second lead screw slip table respectively, when carrying out the parameter to soil and detecting the sample, at first the synchronous action through first lead screw slip table of touch-sensitive screen control and second lead screw slip table, first lead screw slip table and second lead screw slip table drive the mounting panel downstream of installing the sampler, under the continuous application of force of first lead screw slip table and second lead screw slip table, the sampler gets into soil, then control first lead screw slip table and second lead screw slip table upward movement, and will carry taking out of the sampler of soil, the sample to soil has been realized, the mechanization degree is high, the effectual human labor intensity that has reduced, and the efficiency of sample and parameter detection has been improved.

The sampler comprises a pipe shell, an upper detection port and a lower detection port, wherein the pipe shell is cylindrical, and the lower end of the pipe shell is pointed; go up and detect mouthful down and all adopt 2, set up respectively in the both sides of tube, because the tube lower extreme sets up to most advanced form, made things convenient for the smooth soil that stretches into of sampler, when detecting soil parameter, with soil sensor's contact pin from last detection mouth respectively and detect mouthful insert down, made things convenient for the detection of soil of the different degree of depth of soil sensor.

The touch screen is of a JWS02XSQ type and is connected with a 24V direct-current power supply through a lead; the soil sensor is specifically of a YDBS-3001-2-PH type, is connected with a 24V direct-current power supply through a lead and is connected with the touch screen through a data transmission line, the soil sensor transmits detection data to the touch screen for display, and therefore the soil sensor is convenient for people to read soil parameters and is very convenient to use.

The first screw rod sliding table and the second screw rod sliding table are both in an FSL40 type, are connected with a 24V direct-current power supply through a lead and are connected with a touch screen through a data transmission line.

The utility model has the advantages that:

1. the utility model discloses sampling device's setting, when carrying out the parameter to soil and detecting the sample, at first the synchronous action through first lead screw slip table of touch-sensitive screen control and second lead screw slip table, first lead screw slip table and second lead screw slip table drive the mounting panel downstream of installing the sampler, under the continuous application of force of first lead screw slip table and second lead screw slip table, the sampler gets into soil, then control first lead screw slip table and second lead screw slip table upward movement, and will carry taking out of the sampler of soil, the sample to soil has been realized, the mechanization degree is high, the effectual manpower intensity of labour that has reduced, and the efficiency of sample and parameter detection has been improved.

2. The utility model discloses the setting of sampler, because the tube lower extreme sets up to most advanced form, made things convenient for the smooth soil that stretches into of sampler, when detecting soil parameter, detect the mouth with the contact pin of soil sensor from the top respectively and detect the mouth down and insert, made things convenient for the detection of soil sensor to the different degree of depth.

3. The utility model discloses touch-sensitive screen and soil sensor's setting, soil sensor will detect data transmission and show to the touch-sensitive screen, have made things convenient for reading of people to soil parameter, and it is very convenient to use.

Drawings

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

Fig. 2 is a right side view of the structure of the present invention.

Fig. 3 is a schematic structural diagram of the sampling device of the present invention.

Fig. 4 is a schematic structural diagram of the sampler of the present invention.

Fig. 5 is a schematic circuit diagram of the present invention.

In the figure: the soil sampler comprises a frame body 1, a traveling wheel 2, a push handrail 3, a side vertical plate 4, a touch screen 5, a 624V direct-current power supply, a soil sensor 7, a sampling device 8, a first screw rod sliding table 81, an installation plate 82, a second screw rod sliding table 83, a limiting block 84, a sampler 85, a pipe shell 851, an upper detection port 852 and a lower detection port 853.

Detailed Description

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

example (b):

as shown in figures 1 to 5

Referring to fig. 1, the soil parameter collecting device comprises a frame body 1, traveling wheels 2, pushing handrails 3, side vertical plates 4, a touch screen 5, a 24V dc power supply 6, soil sensors 7 and a sampling device 8, wherein the traveling wheels 2 are 4 and are installed at two ends of the bottom of the frame body 1 through transmission shafts; the push handrail 3 is arranged in an inclined shape and welded at the upper end of one side of the frame body 1; 2 side vertical plates 4 are arranged and are all arranged on the frame body 1 through bolts; the touch screen 5 is embedded on one side of the side vertical plate 4; a 24V direct current power supply 6 is fixed on one side of the side vertical plate 4; the soil sensor 7 is arranged on one side of the side vertical plate 4 through a screw; the sampling device 8 is arranged between the side vertical plate 4 and the side vertical plate 4.

In the utility model, the sampling device 8 comprises a first screw rod sliding table 81, a mounting plate 82, a second screw rod sliding table 83, a limiting block 84 and a sampler 85, wherein the first screw rod sliding table 81 is arranged at the inner side of the side vertical plate 4 through bolts; the second screw rod sliding table 83 is arranged on the other side vertical plate 4 through a bolt; two ends of the mounting plate 82 are fixedly connected with nut seats on the first lead screw sliding table 81 and the second lead screw sliding table 83 through bolts; stopper 84 sets up 2, install respectively in the below of first lead screw slip table 81 and second lead screw slip table 83, when carrying out the parameter detection sample to soil, at first the synchronous action of first lead screw slip table 81 and second lead screw slip table 83 is controlled through touch-sensitive screen 5, first lead screw slip table 81 and second lead screw slip table 83 drive the mounting panel 82 downstream of installing sampler 85, under the continuous application of force of first lead screw slip table 81 and second lead screw slip table 83, sampler 85 gets into soil, then control first lead screw slip table 81 and second lead screw slip table 83 upward movement, and take out of sampler 85 that will carry soil, the sample to soil has been realized, the mechanization degree is high, the effectual human labor intensity that has reduced, and the efficiency of sample and parameter detection has been improved.

The sampler 85 includes a tube shell 851, an upper detection port 852 and a lower detection port 853, the tube shell 851 being cylindrical and having a pointed lower end; go up detection mouth 852 and lower detection mouth 853 and all adopt 2, set up respectively in the both sides of tube 851, because the tube 851 lower extreme sets up to sharp tip form, made things convenient for sampler 85 smooth stretching into soil, when detecting soil parameter, insert soil sensor 7's contact pin from last detection mouth 852 and lower detection mouth 853 respectively, made things convenient for the detection of soil sensor 7 to the soil of the different degree of depth.

The touch screen 5 is specifically of a JWS02XSQ type and is connected with a 24V direct-current power supply 6 through a lead; soil sensor 7 specifically adopts YDBS-3001-2-PH type, passes through the wire with 24V DC power supply 6 and is connected to pass through data transmission line with touch-sensitive screen 5, and soil sensor 7 will detect data transmission and show to touch-sensitive screen 5, has made things convenient for people to the reading of soil parameter, and it is very convenient to use.

The first screw rod sliding table 81 and the second screw rod sliding table 83 are both in an FSL40 type, are connected with a 24V direct current power supply 6 through a conducting wire, and are connected with the touch screen 5 through a data transmission line.

The utility model discloses a theory of operation is:

in the utility model, when detecting and sampling parameters of soil, the synchronous action of the first lead screw sliding table 81 and the second lead screw sliding table 83 is controlled through the touch screen 5, the first lead screw sliding table 81 and the second lead screw sliding table 83 drive the mounting plate 82 provided with the sampler 85 to move downwards, the sampler 85 enters the soil under the continuous force application of the first lead screw sliding table 81 and the second lead screw sliding table 83, then the first lead screw sliding table 81 and the second lead screw sliding table 83 are controlled to move upwards, the sampler 85 carrying the soil is taken out, when detecting the soil parameters, the contact pins of the soil sensor 7 are respectively inserted from the upper detection port 852 and the lower detection port 853, the detection of the soil sensor 7 to the soil with different depths is facilitated, the soil sensor 7 transmits the detection data to the touch screen 5 for displaying, and the reading of the soil parameters by people is facilitated, the use is very convenient.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. Soil parameter acquisition device, its characterized in that: the soil sampler comprises a frame body (1), traveling wheels (2), pushing handrails (3), side vertical plates (4), a touch screen (5), a 24V direct-current power supply (6), soil sensors (7) and a sampling device (8), wherein the number of the traveling wheels (2) is 4, and the traveling wheels are arranged at two ends of the bottom of the frame body (1) through transmission shafts; the push handrail (3) is arranged in an inclined shape and welded at the upper end of one side of the frame body (1); 2 side vertical plates (4) are arranged and are all arranged on the frame body (1) through bolts; the touch screen (5) is embedded on one side of the side vertical plate (4); the 24V direct-current power supply (6) is fixed on one side of the side vertical plate (4); the soil sensor (7) is arranged on one side of the side vertical plate (4) through a screw; the sampling device (8) is arranged between the side vertical plate (4) and the side vertical plate (4).

2. The soil parameter acquisition device of claim 1, wherein: the sampling device (8) comprises a first screw rod sliding table (81), a mounting plate (82), a second screw rod sliding table (83), a limiting block (84) and a sampler (85), and the first screw rod sliding table (81) is mounted on the inner side of the side vertical plate (4) through bolts; the second screw rod sliding table (83) is arranged on the other side vertical plate (4) through a bolt; two ends of the mounting plate (82) are fixedly connected with nut seats on the first lead screw sliding table (81) and the second lead screw sliding table (83) through bolts respectively; the number of the limiting blocks (84) is 2, and the limiting blocks are respectively arranged below the first screw rod sliding table (81) and the second screw rod sliding table (83).

3. The soil parameter acquisition device of claim 2, wherein: the sampler (85) comprises a pipe shell (851), an upper detection port (852) and a lower detection port (853), wherein the pipe shell (851) is cylindrical, and the lower end of the pipe shell is pointed; the upper detection port (852) and the lower detection port (853) are 2 and are respectively arranged on two sides of the pipe shell (851).

4. The soil parameter acquisition device of claim 1, wherein: the touch screen (5) is of a JWS02XSQ type and is connected with a 24V direct-current power supply (6) through a lead; the soil sensor (7) is specifically of a YDBS-3001-2-PH type, is connected with a 24V direct-current power supply (6) through a lead, and is connected with the touch screen (5) through a data transmission line.

5. The soil parameter acquisition device of claim 2, wherein: the first screw rod sliding table (81) and the second screw rod sliding table (83) are both in an FSL40 type, are connected with a 24V direct-current power supply (6) through a lead and are connected with a touch screen (5) through a data transmission line.