CN215296739U - Convenient soil collection system - Google Patents

Abstract

The utility model discloses a convenient soil collection system belongs to the soil collection field. Convenient soil collection system includes: the handle, the connecting rod and the soil sampler; the handle is provided with a horizontal instrument, the connecting rod comprises a loop bar and a connecting rod which can extend out of the inside of the loop bar, the soil sampler is communicated up and down, the upper end of the soil sampler comprises a soil pushing block which can move up and down, the outer surface of the soil sampler also comprises convex threads, the lowest end of the soil sampler is provided with a circle of helical teeth, the loop bar is connected with the handle, and the connecting rod is connected with the soil sampler; the horizontal instrument ensures that the device can take soil vertically, can accurately take a required soil sample, and the connecting rod which can extend prolongs the length of the whole connecting rod, so that deep soil can be conveniently taken; the whole device can ensure the accuracy of the soil sampling position, is convenient and quick to tunnel during soil sampling, and can quickly release a soil sample.

Description

Convenient soil collection system

Technical Field

The utility model relates to a soil collection field especially relates to a convenient soil collection system.

Background

At present, in the investigation of the soil of the domestic mountain lands, the monitoring and forecasting research on the soil of each region can grasp the composition change of the soil of each region in time, and the method has positive and important effects on preventing the soil pollution in time and protecting the soil resources. The collection of soil samples and soil testing are the fundamental stages in the study of soil environmental problems.

Traditional soil collection mode carries out soil collection for the manual work is holding the shovel, and shovel simple structure when gathering the soil of the different degree of depth, needs dig the soil on surface and remove just can gather, and the operation is wasted time and energy.

Further soil acquisition device has the tube-shape sampler and inserts it to the certain degree of depth in underground, and then obtain the soil sample of the different degree of depth, but in the collection process, often rely on the experience of being responsible for, when the tube-shape sampler inserted underground, do not insert underground with a vertical state but have certain inclination and staff often are difficult to perceive and obtain with vertical direction, lead to the soil layer inconsistent, the non-correspondence of the soil of the required collection degree of depth of gathering and cause certain deviation, make the testing result inaccurate.

The length of the soil collector inserted into the ground is not calculated, the soil collector can only be estimated, or a measuring tape is independently used for measurement, the operation is troublesome, and a proper sample cannot be accurately obtained; or the soil that needs to gather often needs to add one section connecting rod again when darker to make whole device grow and realize gathering, and this is comparatively inconvenient to the collection work, need carry more accessories moreover, is unfavorable for work to develop.

Moreover, soil collector in addition is when carrying out soil collection, and after the staff took the sampler to accomplish from soil, soil in the sampler all was comparatively compact of card generally, need reuse just can give soil to scratch out for external ladle and so on, the great waste operating time of this kind of condition, had consumeed more manpowers, was unfavorable for the collection work of soil sample.

Therefore, the soil collecting device is convenient and fast to collect the soil needed by the deep layer, can stretch and retract, has length scales, can realize horizontal drilling and can conveniently take the soil out of the collector.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model provides a convenient soil collection system, simple structure, low cost, convenient operation, borrowing are high-efficient.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a convenient soil collection device comprising:

the handle, the connecting rod and the soil sampler; install horizontal instrument on hand, the connecting rod includes the loop bar and overlaps establishes the connective bar that just can stretch out inside the loop bar, and the geotome link up from top to bottom, and the upper end contains the bulldozing piece that can reciprocate, and the geotome surface still contains protruding screw thread, and the one round skewed tooth is installed to the geotome lower extreme, and the handle is connected to the loop bar, and the geotome is connected to the connective bar.

The utility model has the advantages that: the horizontal instrument can keep the device to vertically take soil, a required soil sample can be more accurately taken, the connecting rod capable of extending is arranged in the sleeve rod of the connecting rod, the length of the whole connecting rod can be prolonged, deep soil can be more conveniently taken, the soil sampler is vertically communicated, a soil sample taken from the soil sampler can be conveniently discharged by pushing the soil pushing block moving up and down, the outer surface of the soil sampler also comprises convex threads, so that the soil sampler can conveniently dig soil, and the inclined teeth can increase friction with the soil, so that soil can be more conveniently dug; the whole device can ensure the accuracy of the soil sampling position, is convenient and quick to tunnel during soil sampling, and can quickly release a soil sample.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Furthermore, the handle and the loop bar are detachably connected, and the soil sampler and the connecting rod are detachably connected.

The beneficial effect of adopting the further scheme is that: the handle, the loop bar, the soil sampler and the connecting rod are detachably connected, so that the size of the device is reduced, and the device is convenient to carry.

Further, the level instrument is a bubble level instrument and is embedded in the middle of the handle.

The beneficial effect of adopting the further scheme is that: the bubble level meter has the advantages of simple structure, convenience, practicability and low price, and can greatly reduce the cost when the aim of keeping the device tunneling vertically is fulfilled.

Furthermore, the geotome is cylindric, and bulldoze the piece upper end and contain the absorption piece, can adsorb the inside upper end at the geotome.

The beneficial effect of adopting the further scheme is that: the soil sampler can be used as a temporary soil sample of the soil sampling container. The soil sampler is communicated up and down, the soil block is adsorbed at the upper end inside the soil sampler, the soil sampler can be directly disassembled after soil is taken out by the soil sampler, and a soil sample can be completely discharged from the soil sampler by pushing the soil block out by using a tool, so that the soil sampler is convenient and quick.

Furthermore, the soil sampler and the soil-shifting block are made of iron respectively, and the adsorption block is a magnet.

The beneficial effect of adopting the further scheme is that: the iron material is low in cost, meets the sampling standard, and the adsorption block is simple and practical in structure with the magnet.

Furthermore, scale marks are marked on the loop bar and the connecting rod.

The beneficial effect of adopting the further scheme is that: the scale marks can clearly know the length of the tunneling distance and accurately reach soil sampling points, the sleeve rod and the connecting rod are marked with the scale marks, and soil excavation data of required depth can be obtained by adding the scales of the sleeve rod and the connecting rod.

Further, fixed snap ring is installed to the loop bar lower extreme, has a plurality of shrinkage pools on the connective bar, there is the latch with the shrinkage pool same shape on the fixed snap ring, fixed snap ring passes through the latch with the connective bar joint.

The beneficial effect of adopting the further scheme is that: fixed snap ring can keep through the latch and the shrinkage pool meshing for loop bar and connective bar are fixed, make things convenient for behind the quick extension of connective bar fixed with the loop bar.

Further, loop bar and handle and connective bar and geotome are the buckle connection.

The beneficial effect of adopting the further scheme is that: this device needs to rotate and apply decurrent power, can accomplish the action of borrowing, and the buckle is connected the operation mode that is more applicable to in this device to lead to the card between loop bar and handle and connective bar and the borrowing attachment to die.

Furthermore, friction lines are carved on the handle.

The beneficial effect of adopting the further scheme is that: the friction lines can increase the friction force between the handle and the handle, and facilitate the application of force.

Further, the cross section of the soil sampler is larger than that of the connecting rod.

The beneficial effect of adopting the further scheme is that: the cylindrical shape of the soil sampler is larger than that of the connecting rod, so that the connecting rod can not form a barrier in the tunneling process of the soil sampler.

Drawings

FIG. 1 is a general schematic view of the present invention;

fig. 2 is a schematic diagram of the extension of the device of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a handle; 11. a leveling instrument; 2. a connecting rod; 21. a loop bar; 22. a connecting rod; 23. Fixing the snap ring; 24. scale lines; 3. a soil sampler; 31. pushing the soil blocks; 32. a male thread; 33. And (4) helical teeth.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the following detailed description of the present invention with reference to the accompanying drawings is not intended to limit the scope of the present invention.

Example 1: as shown in fig. 1-2, the utility model discloses a convenient soil collection system's embodiment, include:

the soil sampler comprises a handle 1, a connecting rod 2 and a soil sampler 3; install level instrument 11 on the handle 1, connecting rod 2 includes loop bar 21 and cover and establishes the inside and protractile connective bar 22 of loop bar 21, soil sampler 3 link up from top to bottom, and the upper end contains the bulldozing piece 31 that can reciprocate, soil sampler 3 surface still contains protruding screw thread 32, soil sampler 3 installs round skewed tooth 33 at the lower extreme, loop bar 21 connects handle 1, connective bar 22 connects soil sampler 3.

Specifically, connecting rod 2 includes loop bar 21 and cover and establishes the inside and protractile connective bar 22 of loop bar 21, wherein handle 1 is connected to loop bar 21, and geotome 3 is connected to connective bar 22, installs level instrument 11 on the handle 1, and geotome 3 surface still contains protruding screw thread 32, and the undermost end is installed one round skewed tooth 33, and the inside of geotome still contains the bull block 31 that can reciprocate.

It should be understood that the horizontal instrument 11 can keep the device to vertically take soil, so as to more accurately take a required soil sample, the connecting rod 22 which can be extended is arranged in the sleeve rod 21 of the connecting rod 2, so that the length of the whole connecting rod 2 can be extended, and deep soil can be more conveniently taken, the soil sample taken from the soil sampler 3 can be conveniently pushed out by the soil shifting block 31 which can move up and down, the convex thread 32 is further arranged on the outer surface of the soil sampler 3, so that the soil can be conveniently tunneled by the soil sampler 3, and the friction between the oblique teeth 33 and the soil can be increased, so that the soil can be conveniently tunneled; the whole device can ensure the accuracy of the soil sampling position, is convenient and quick to tunnel during soil sampling, and can quickly release a soil sample.

On the basis of example 1, example 2: as shown in fig. 1-2: the handle 1 and the loop bar 21 can be detachably connected, and the soil sampler 3 and the connecting rod 22 are detachably connected.

Specifically, the soil sampler can be used as a temporary soil sample of the soil sampling container; can dismantle the temporary preservation that the connected mode made things convenient for the soil sample.

Preferably, the detachable connection is a bolted connection or a seat pipe clamp connection.

It should be understood that the handle 1, the loop bar 2 and the soil sampler 3 are detachably connected with the connecting rod 22, so that the volume of the equipment is reduced; the carrying of the device is convenient.

On the basis of example 1, example 3: as shown in fig. 1-2: the level instrument 11 is a bubble level instrument and is embedded in the middle of the handle 1.

Specifically, the level instrument 11 is a long cylindrical bubble level instrument made of transparent material and embedded in the middle of the handle 1.

Preferably, the spirit level is located just above the middle of the handle 1.

It will be appreciated that the bubble level 11 is simple, convenient, practical, and inexpensive, and provides a significant cost reduction in achieving the goal of maintaining the device in a vertical driving orientation.

On the basis of example 1, example 4: as shown in fig. 1-2: the geotome 3 is cylindric, it contains the adsorption piece to push away the soil block 31 upper end, can adsorb the inside upper end of geotome 3.

Specifically, the soil sampler 3 is through from top to bottom, and the soil block is convenient to fetch when adsorbing the inside upper end of the soil sampler, and when the soil is full, the soil can be conveniently and completely discharged by pushing out the soil block.

Example 5 on the basis of example 1: as shown in fig. 1-2: the soil sampler 3 and the soil pushing block 31 are made of iron materials respectively, and the adsorption block is a magnet.

It should be understood that the iron material has low cost, meets the sampling standard, and the adsorption block is a magnet, and has simple and practical structure.

Example 6 on the basis of example 1: as shown in fig. 1-2: the loop bar 21 and the connecting rod 22 are marked with scale marks 24.

Specifically, the scale mark 24 takes centimeter or decimeter as a unit, so that the length of the loop bar and the length of the connecting rod can be conveniently added and calculated.

It should be understood that the scale lines can clearly know how long the tunneling distance is and accurately reach the soil sampling point, and the sleeve rod 21 and the connecting rod 22 are both marked with the scale lines 24, so that the soil excavation data of the required depth can be obtained by adding the scales of the sleeve rod 21 and the connecting rod 22.

Example 7 on the basis of example 1: as shown in fig. 1-2: fixed snap ring 23 is installed to loop bar 21 lower extreme, there are a plurality of shrinkage pools on the connective bar 22, exist on the fixed snap ring 23 with the latch of shrinkage pool same shape, fixed snap ring 23 passes through the latch with the connective bar 22 joint.

Specifically, fixed snap ring 23 one end articulates on loop bar 21, exists the latch with the shrinkage pool same shape on the fixed snap ring 23 other end, and loop bar 21 also exists and can supply the latch to get into and block into the passageway of shrinkage pool, and fixed snap ring 23 realizes the mesh mutually with the shrinkage pool through rotating for loop bar 21 and connective bar 22 are fixed, make things convenient for behind the quick extension of connective bar 22 fixed with loop bar 21.

Preferably, the friction between the hinges of the fixed snap ring 23 and the loop bar 21 is large, so that the engagement between the fixed snap ring 23 and the concave holes is compact, the vertical arrangement between the concave holes is distributed by taking a length range of the scale mark 24, and the tunneling depth can be conveniently calculated between the loop bar 21 and the connecting rod 22.

On the basis of example 1, example 8: as shown in fig. 1-2: the loop bar 21 and the handle 1 as well as the connecting rod 22 and the soil sampler 3 are all in snap connection.

It will be appreciated that the device requires rotation and application of a downward force to perform the soil sampling action and that the snap-fit connection is more suitable for the mode of operation of the device so as not to cause jamming between the shank 21 and the handle 1 and the connecting rod 22 and the soil sampler 3.

Preferably, the snap connection may be a seat tube clip snap connection.

Example 9 on the basis of example 1: as shown in fig. 1-2: the handle 1 is engraved with friction lines.

It will be appreciated that the friction lines may increase the friction between the hand and the handle 1, facilitating the application of force.

On the basis of example 1, example 8: as shown in fig. 1-2: the cross section of the geotome 3 is larger than that of the connecting rod 2.

It will be appreciated that the cylindrical shape of the geotome 3 is larger than the connecting rods, ensuring that the connecting rods 2 do not form a barrier during the driving of the geotome 3.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a convenient soil collection system which characterized in that includes:

the soil sampler comprises a handle (1), a connecting rod (2) and a soil sampler (3); install level instrument (11) on handle (1), connecting rod (2) are established including loop bar (21) and cover the inside and protractile connective bar (22) of loop bar (21), native ware (3) link up from top to bottom, and the upper end contains bulldozing piece (31) that can reciprocate, native ware (3) surface still contains convex thread (32), native ware (3) install round skewed tooth (33) bottom, loop bar (21) are connected handle (1), connective bar (22) are connected native ware (3).

2. The convenient soil gathering device as recited in claim 1, wherein the handle (1) is detachably connected with the loop bar (21), and the soil sampler (3) is detachably connected with the connecting rod (22).

3. The portable soil gathering device as recited in claim 1, wherein the level (11) is a bubble level, embedded in the middle of the handle (1).

4. The convenient soil collecting device according to claim 1, wherein the soil sampler (3) is cylindrical, and the upper end of the soil pushing block (31) contains an adsorption block which can be adsorbed on the upper end of the interior of the soil sampler (3).

5. The convenient soil collection device according to claim 4, wherein the soil sampler (3) and the soil pushing block (31) are made of iron materials respectively, and the adsorption block is a magnet.

6. The portable soil gathering device as recited in claim 1, wherein the loop bar (21) and the connecting rod (22) are marked with graduation marks (24).

7. The convenient soil collection device of claim 1, wherein a fixing snap ring (23) is mounted at the lower end of the loop bar (21), a plurality of concave holes are formed in the connecting rod (22), snap teeth with the same shape as the concave holes are formed in the fixing snap ring (23), and the fixing snap ring (23) is clamped with the connecting rod (22) through the snap teeth.

8. The portable soil gathering device as recited in claim 1, wherein the loop bar (21) and the handle (1) and the connecting rod (22) and the geotome (3) are snap-fit connections.

9. The portable soil collection device of claim 1 wherein said handle (1) is scored with friction lines.

10. The portable soil gathering device as recited in claim 1, wherein the geotome (3) has a cross-section that is larger than the cross-section of the connecting rod (2).

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