CN217836631U - Portable soil investigation sample strorage device - Google Patents

Abstract

The utility model discloses a portable soil investigation sample strorage device, including the heat preservation box, the top hinge connection of heat preservation box has the apron, temperature control mechanism is installed to the bottom of heat preservation box, the inner wall connection of heat preservation box has the mesh baffle, the top of mesh baffle is connected with the fixed block, set up flutedly on the fixed block, the inner wall connection of recess has reset spring, reset spring's end connection has the attaching plate. This portable soil investigation sample strorage device stores half a bucket through first storage, half a bucket is stored to the second, block mechanism, mutually supporting of parts such as clamp plate and screw rod for the device is convenient for take out the sample fast and comparatively complete stable, is convenient for detect, and can adjust the space size of sample container, adapts to the sample of equidimension not, and it is less to have avoided the sample, and when the container was great, the sample was loose in the container, and the soil horizon changes, influences subsequent detection.

Description

Portable soil investigation sample strorage device

Technical Field

The utility model relates to a soil investigation equipment technical field specifically is a portable soil investigation sample strorage device.

Background

Soil investigation takes a sample, soil after this in-process need use soil classification strorage device to take a sample carries out temporary depositing, but general soil classification strorage device often is not convenient for the staff to go out to carry, and current soil classification strorage device can not guarantee the original state of soil temporarily, a large amount of microorganisms can lead to dying because deposit improper like high temperature in the soil, dry etc., thereby influence the evaluation efficiency, and current soil classification strorage device, produce the shake in soil sample storage transportation, make sample soil horizon change, influence the effect that soil detected, and the parking space can not be adjusted, as the sample is few, when the parking container is great, the sample can be loose in the container, make sample soil horizon change, current parking container inconvenience takes out the sample fast in addition, and easily make the sample, the practicality of device has been reduced.

In order to solve the above problems, innovative design based on the original storage device is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable soil investigation sample strorage device, in order to solve and to propose in the above-mentioned background art a large amount of microorganism can be because deposit improper if high temperature, the drying etc. leads to dying, thereby influence aassessment efficiency, and current soil classification strorage device, it shakes to produce in the soil sample deposit transportation, make sample soil horizon change, influence the effect that soil detected, and the parking space can not be adjusted, when the sample is few, when the storage container is great, the sample can be loose in the container, make sample soil horizon change, current storage container inconvenience takes out the sample fast in addition, and easily make the sample scattered, the problem of the practicality of device has been reduced.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a portable soil investigation sample strorage device, includes the heat preservation box, the top hinge connection of heat preservation box has the apron, temperature control mechanism is installed to the bottom of heat preservation box, the inner wall connection of heat preservation box has the mesh baffle, the top of mesh baffle is connected with the fixed block, set up flutedly on the fixed block, the inner wall connection of recess has reset spring, reset spring's end connection has the rigging board, the avris of rigging board pastes in the inner wall of recess, the bottom of rigging board is connected with the stay cord, the inner wall connection of heat preservation box has the limiting plate, be provided with spring telescopic link on the limiting plate, spring telescopic link's end connection has the clamp splice, the line that the tip of stay cord runs through on the limiting plate is connected in the clamp splice, the inner wall of clamp splice is laminated respectively and is connected with first storage half bucket and second storage half bucket, first one side hinge connection who stores half bucket is in the second and stores half bucket, first storage half bucket and second storage half bucket's lower extreme pastes in the top of rigging board, the opposite side that first storage half bucket and second storage bucket are provided with block mechanism, the outer wall of first storage half bucket is provided with the screw rod, the outer wall of first storage half bucket runs through the storage bucket.

Preferably, the limiting plates are distributed in the heat-insulating layer box body at equal intervals, and the clamping blocks are of arc structures.

Preferably, the outer wall of the first storage half-bucket and the second storage half-bucket is set to be of an arc structure, the inner wall of the first storage half-bucket and the inner wall of the second storage half-bucket are set to be of a rectangular structure, and the inner wall of the first storage half-bucket and the edge side of the pressing plate are attached to each other.

Preferably, the block mechanism includes solid block, hollow block, fixture block, spout, pull rod and spacing spring, the outer wall that half bucket was stored to the second is connected with solid block, be connected with the fixture block on the solid block, the fixture block is located the inside of hollow block, hollow block is connected in the outer wall of first storage half bucket, the spout has been seted up to the inner wall of hollow block, the inside of spout is provided with the pull rod, the one end of pull rod is run through the spout and is laminated with the fixture block each other, the other end of pull rod runs through the outer wall of hollow block, the outer wall nestification of pull rod has spacing spring, the one end of spacing spring is connected in the pull rod, the other end of spacing spring is connected in the inner wall of spout even.

Preferably, one end of the pull rod is of an L-shaped structure, the other end of the pull rod is of an arc-shaped structure, the end portion of the pull rod is connected with the clamping block in a clamping mode, and the pull rod is connected with the sliding groove in a sliding mode.

Preferably, the screw is arranged into a T-shaped structure, and the screw is in threaded connection with the first storage half barrel.

Compared with the prior art, the beneficial effects of the utility model are that: this portable soil investigation sample strorage device, through the heat preservation box, accuse temperature mechanism, the fixed block, a groove, reset spring, mutually supporting of parts such as attaching plate and stay cord, it transports the sample to be convenient for when making the device deposit the dress to the sample, and the in-process at the transportation has the buffer protection, vibrations have been avoided, cause the soil horizon to change, influence the effect that soil detected, portable stability in addition, be superior to the vibrations that the gyro wheel drags and shoulders bag transport production, and can adjust suitable temperature at the in-process of transportation, it is dead because of the temperature to have avoided the microorganism in the soil, the influence detects, it carries out spacing centre gripping to deposit the container to the sample that can be quick in addition, further reinforcing the practicality of device.

Through the mutual cooperation of parts such as first storage half bucket, second storage half bucket, block mechanism, clamp plate and screw rod for the device is convenient for take out the sample fast and comparatively complete stable, is convenient for detect, and can adjust the space size of sample container, adapts to the sample of different volume, and it is less to have avoided the sample, and when the container was great, the sample was loose in the container, and the soil horizon changes, influences subsequent detection.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the first storage half-tub according to the present invention;

FIG. 3 is a front view of the first storage half-tub of the present invention;

FIG. 4 is a schematic top view of the first storage half-tub of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 4 according to the present invention.

In the figure: 1. a heat insulation layer box body; 2. a cover plate; 3. a temperature control mechanism; 4. a mesh baffle plate; 5. a fixed block; 6. a groove; 7. a return spring; 8. attaching a plate; 9. pulling a rope; 10. a limiting plate; 11. a spring telescopic rod; 12. a clamping block; 13. a first storage half-bucket; 14. a second storage half-bucket; 15. a clamping mechanism; 1501. a solid block; 1502. a hollow block; 1503. a clamping block; 1504. a chute; 1505. a pull rod; 1506. a limiting spring; 16. pressing a plate; 17. a screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides a portable soil investigation sample strorage device, including heat preservation box 1, apron 2, temperature control mechanism 3, mesh baffle 4, fixed block 5, recess 6, reset spring 7, laminating board 8, stay cord 9, limiting plate 10, spring telescopic link 11, clamp splice 12, first storage half bucket 13, second storage half bucket 14, block mechanism 15, solid block 1501, hollow block 1502, 1503, spout 1504, pull rod 1505, limit spring 1506, clamp plate 16 and screw rod 17, heat preservation box 1's top hinged joint has apron 2, temperature control mechanism 3 is installed to heat preservation box 1's bottom, heat preservation box 1's inner wall is connected with mesh baffle 4, mesh baffle 4's top is connected with fixed block 5, recess 6 has been seted up on fixed block 5, the inner wall of recess 6 is connected with reset spring 7, reset spring 7's end connection has clamp plate 8, laminating board 8's avris laminating in recess 6's inner wall, laminating board 8's bottom is connected with heat preservation board 1 has the telescopic link 10, be provided with spring 11 on the limiting plate 10, the end connection of spring 11 has clamp splice 12, laminating board 9, laminating board 8's the avris laminating is connected in the inner wall of recess 13 and is connected with the storage barrel 13 of second storage half bucket 13, the storage barrel 13 of first half bucket 14 and the storage barrel 13 that the second half bucket 13 lower extreme is connected with the first half bucket 14 of storage half bucket 14, the laminating of storage barrel 13, the first half bucket 13 is connected with the laminating of storage barrel 13.

Limiting plate 10 equidistant distribution is in the inside of heat preservation box 1, and clamp splice 12 sets up to the arc structure for clamp splice 12 more laminates the first outer wall of storing half-tub 13 and the second and store half-tub 14, carries out effectively spacingly.

First outer wall of storing half-bucket 13 and second and storing half-bucket 14 all sets up to the arc structure, and first inner wall of storing half-bucket 13 and second and storing half-bucket 14 sets up to the rectangle structure to the first inner wall of storing half- bucket 13 and 16 avris of clamp plate laminate each other, when making can carry out the complete sample of taking out fast, be convenient for clear up inside, can adjust inner space simultaneously.

The clamping mechanism 15 comprises a solid block 1501, a hollow block 1502, a fixture block 1503, a sliding groove 1504, a pull rod 1505 and a limiting spring 1506, the outer wall of the second storage half barrel 14 is connected with the solid block 1501, the solid block 1501 is connected with the fixture block 1503, the fixture block 1503 is located inside the hollow block 1502, the hollow block 1502 is connected to the outer wall of the first storage half barrel 13, the sliding groove 1504 is formed in the inner wall of the hollow block 1502, the pull rod 1505 is arranged inside the sliding groove 1504, one end of the pull rod 1505 penetrates through the sliding groove 1504 and the fixture block 1503 to be attached to each other, the other end of the pull rod 1505 penetrates through the outer wall of the hollow block 1502, the limiting spring 1506 is nested in the outer wall of the pull rod 1505, one end of the limiting spring 1506 is connected to the pull rod 1505, the other end of the limiting spring 1506 is connected to the inner wall of the sliding groove 1504, so that the clamping mechanism 15 can limit and fix the first storage half barrel 13 and the second storage half barrel 14, and is convenient to open and close quickly.

One end of the pull rod 1505 is set to be in an L-shaped structure, the other end of the pull rod 1505 is set to be in an arc-shaped structure, the end part of the pull rod 1505 and the fixture block 1503 form a clamping connection, and the pull rod 1505 and the sliding groove 1504 form a sliding connection, so that the pull rod 1505 can move in the sliding groove 1504 and is limited by the sliding groove 1504.

The screw 17 is set to be a T-shaped structure, and the screw 17 and the first storage half-barrel 13 are in threaded connection, so that the screw 17 can move on the first storage half-barrel 13 when rotating, and is limited by the first storage half-barrel 13.

The working principle is as follows: according to the drawings of fig. 1-5, firstly, the cover plate 2 is opened, the sample is placed in the first storage half barrel 13 and the second storage half barrel 14, the screw 17 is rotated, the pressing plate 16 is pushed to move in the first storage half barrel 13 and the second storage half barrel 14 through the threaded connection of the screw 17 and the first storage half barrel 13, the purpose of space adjustment is achieved, the sample soil is prevented from loosening in the container and affecting the subsequent detection, the rotary cover is in threaded connection with the first storage half barrel 13 and the second storage half barrel 14 for sealing, the first storage half barrel 13 and the second storage half barrel 14 filled with the sample are placed in the heat insulation layer box body 1 and inserted into the groove 6 on the fixing block 5, the pressing fitting plate 8 moves towards the groove 6, the return spring 7 is stressed and compressed, the pull rope 9 is loosened, because the elasticity of the return spring 7 is larger than that of the two spring telescopic rods 11, so that the spring telescopic rod 11 which is initially in a compression state is reset, the binding plate 8 is pushed to be in contact with the two sides of the outer walls of the first storage half barrel 13 and the second storage half barrel 14 for fixation, the bottom is fixed through the groove 6, the temperature control mechanism 3 is adjusted to a proper temperature, the cover plate 2 and the heat insulation layer box body 1 are rotated along the hinge for sealing, the fixing is realized through bolts, when vibration occurs, the first storage half barrel 13 and the second storage half barrel 14 are buffered through the resilience force of the spring telescopic rod 11, the sample is prevented from being influenced by the vibration, after the detection destination is reached, the heat insulation layer box body 1 is placed in a working area through the foot blocks on the outer wall, the cover plate 2 and the heat insulation layer box body 1 are opened, the first storage half barrel 13 and the second storage half barrel 14 which are filled with the sample are taken out, the reset spring 7 is separated from compression, and the binding plate 8 is pushed to reset, the clamping block 12 is pulled by the pull rope 9 to move towards two sides for resetting, and the cover is rotated and opened;

then pull rod 1505 is pulled, so that pull rod 1505 moves in chute 1504, limiting spring 1506 is stressed and compressed, the end of pull rod 1505 is separated from the clamping of clamping block 1503, first storage half-barrel 13 and second storage half-barrel 14 are rotated and opened along the hinge, and the sample is completely taken out, so that the subsequent detection is facilitated, the cleaning of the sample is facilitated, the next sampling is not affected, and the working principle of the portable soil exploration sampling storage device is the same.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a portable soil investigation sample strorage device, includes heat preservation box (1), its characterized in that: the top of the heat-insulating layer box body (1) is hinged with a cover plate (2), the bottom of the heat-insulating layer box body (1) is provided with a temperature control mechanism (3), the inner wall of the heat-insulating layer box body (1) is connected with a mesh baffle (4), the top of the mesh baffle (4) is connected with a fixed block (5), the fixed block (5) is provided with a groove (6), the inner wall of the groove (6) is connected with a reset spring (7), the end part of the reset spring (7) is connected with an attaching plate (8), the lateral side of the attaching plate (8) is attached to the inner wall of the groove (6), the bottom of the attaching plate (8) is connected with a pull rope (9), the inner wall of the heat-insulating layer box body (1) is connected with a limiting plate (10), a spring telescopic rod (11) is arranged on the limiting plate (10), the end part of the spring telescopic rod (11) is connected with a clamping block (12), the end part of the pull rope (9) penetrates through a wire way on the limiting plate (10) to be connected to the clamping block (12), the inner wall of the clamping block (12) is respectively attached to a first storage half barrel (13) and a second storage barrel (14), the top of the first storage barrel (13) and the second half storage barrel (14) and the lower end of the second storage barrel (14), the other side of first storage half-bucket (13) and second storage half-bucket (14) is provided with block mechanism (15), the outer wall of first storage half-bucket (13) is provided with screw rod (17), the tip of screw rod (17) runs through the outer wall of first storage half-bucket (13) and is connected with clamp plate (16).

2. A portable soil investigation sample strorage device as claimed in claim 1, wherein: the limiting plates (10) are distributed in the heat-insulating layer box body (1) at equal intervals, and the clamping blocks (12) are of arc-shaped structures.

3. A portable soil investigation sample strorage device as claimed in claim 1, wherein: the outer wall that half bucket (14) were stored to first storage half bucket (13) and second all sets up to the arc structure, and the inner wall that half bucket (14) were stored to first storage half bucket (13) and second sets up to the rectangle structure to the avris of the inner wall of first storage half bucket (13) and clamp plate (16) is laminated each other.

4. A portable soil investigation sample strorage device as defined in claim 1, wherein: the clamping mechanism (15) comprises a solid block (1501), a hollow block (1502), a clamping block (1503), a sliding groove (1504), a pull rod (1505) and a limiting spring (1506), the outer wall of the second storage half barrel (14) is connected with the solid block (1501), the solid block (1501) is connected with the clamping block (1503), the clamping block (1503) is located inside the hollow block (1502), the hollow block (1502) is connected to the outer wall of the first storage half barrel (13), the sliding groove (1504) is formed in the inner wall of the hollow block (1502), the pull rod (1504) is arranged inside the sliding groove (1504), one end of the pull rod (1505) penetrates through the sliding groove (1504) and fits with the clamping block (1503) mutually, the other end of the pull rod (1505) penetrates through the outer wall of the hollow block (1502), the limiting spring (1506) is nested in the outer wall of the pull rod (1505), one end of the limiting spring (1506) is connected to the pull rod (1505), and the other end of the limiting spring (1506) is connected to the inner wall of the sliding groove (1504).

5. A portable soil investigation sample strorage device as claimed in claim 4, wherein: one end of the pull rod (1505) is set to be in an L-shaped structure, the other end of the pull rod (1505) is set to be in an arc-shaped structure, the end part of the pull rod (1505) and the fixture block (1503) form clamping connection, and the pull rod (1505) and the sliding chute (1504) form sliding connection.

6. A portable soil investigation sample strorage device as defined in claim 1, wherein: the screw rod (17) is of a T-shaped structure, and the screw rod (17) is in threaded connection with the first storage half barrel (13).

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