CN220819492U

CN220819492U - Slope geology reconnaissance sampling protector

Info

Publication number: CN220819492U
Application number: CN202322595328.XU
Authority: CN
Inventors: 王恒; 贾智丹; 罗锐; 刘威; 汪金才; 杨长明
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-09-22
Filing date: 2023-09-22
Publication date: 2024-04-19
Anticipated expiration: 2033-09-22

Abstract

The utility model discloses a slope geological investigation sampling protection device which comprises a placing table, a limiting assembly and a locking assembly, wherein the placing table is arranged on the limiting assembly; placing the platform: the outer edge of the upper surface of the support is provided with a fence, the inner array of the fence is provided with slots, a partition board is inserted between the two corresponding slots in the transverse direction, connecting frames are symmetrically arranged in grooves formed in the lower surface of the placement table, the opposite inner side ends and the lower ends of the two connecting frames which correspond in the longitudinal direction are of an opening structure, sleeves are rotationally connected between the left side wall and the right side wall of the connecting frames, the inner walls of the sleeves are slidingly connected with extension rods, the lower ends of the extension rods are rotationally connected with foot support plates, and conical thorns are arrayed on the lower surfaces of the foot support plates; limiting component: the limiting components are respectively inserted into the side walls of the adjacent connecting frames; this slope geology reconnaissance sampling protector conveniently carries, can prevent that the sample from empting and shed, avoids different sample to mix and influences reconnaissance data.

Description

Slope geology reconnaissance sampling protector

Technical Field

The utility model relates to the technical field of geological exploration sampling, in particular to a slope geological exploration sampling protection device.

Background

The geological engineering field is the pilot engineering field serving national economy construction by taking natural science and earth science as theoretical basis, taking geological survey, general investigation and exploration of mineral resources, geological structure of major engineering and engineering problems related to geological background as main objects, taking geology, geophysics and geochemistry technology, mathematical geologic method, remote sensing technology, testing technology, computer technology and the like as means. At present, in the geological survey process, survey staff can excavate, survey and sample to earth's surface different positions, however, in the slope area, the sample is placed very inconveniently, slightly carelessly can cause throwing or mixing between different samples, has brought inconvenience for the sampling work, and for this reason, we propose a slope geological survey sampling protection device.

Disclosure of utility model

The utility model aims to overcome the existing defects, provides the slope geological investigation sampling protection device, is convenient to carry, can prevent samples from dumping and throwing, can avoid the influence on investigation data caused by mixing different samples, and can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a slope geological investigation sampling protection device comprises a placing table, a limiting assembly and a locking assembly;

Placing the platform: the upper surface of the rack is provided with a rail, an inner array of the rail is provided with slots, a partition board is inserted between the two slots which are transversely corresponding, connecting frames are symmetrically arranged in grooves formed in the lower surface of the placing table, the inner side ends and the lower ends of the two connecting frames which are longitudinally corresponding are of an opening structure, sleeves are rotationally connected between the left side wall and the right side wall of the connecting frames, the inner walls of the sleeves are slidingly connected with extension rods, the lower ends of the extension rods are rotationally connected with foot support plates, and conical thorns are arrayed on the lower surfaces of the foot support plates;

limiting component: the limiting assemblies are respectively inserted into the side walls of the adjacent connecting frames;

and (3) a locking assembly: the locking assembly is fixedly connected with the lower ends of the two transversely corresponding sleeves respectively, so that occupied space is reduced, the locking assembly is convenient to carry, samples can be effectively prevented from being poured and sprinkled in the sampling operation process, the smooth proceeding of the sampling operation is ensured, different types of samples are blocked, and the influence on investigation data caused by mixing of different samples is avoided.

Further, spacing subassembly includes cavity, T type round pin and spring one, the cavity sets up in telescopic upper end inside respectively, the equal sliding connection of inner wall of cavity has T type round pin, the horizontal part of T type round pin passes the through-hole that the sleeve upper end set up respectively and peg graft inside adjacent connection frame lateral wall, the cavity is inside to deviate from and all be equipped with spring one between the inner wall of T type round pin and the T type round pin, carries out moderate spacing to the sleeve, avoids its free rotation.

Further, the locking assembly comprises a first rack, a second 匚 -shaped frame, a second spring, a second rack and a second 匚 -shaped frame, wherein the first rack is respectively arranged on the front side face of the two extension rods on the front side and the rear side face of the two extension rods on the rear side, the first 匚 -shaped frame is respectively inserted into the side walls of the two sleeves, the second racks are respectively arranged at two ends of the first 匚 -shaped frame and are respectively connected with the first adjacent rack in a clamping mode, the second spring is respectively sleeved on the outer surfaces of the left end and the right end of the first 匚 -shaped frame, the two ends of the second spring are respectively fixedly connected with the side face of the second spring, deviating from the first rack, and the inner wall of the sleeve, the two ends of the second 匚 -shaped frame are respectively fixedly connected with the lower ends of the two sleeves corresponding to the transverse directions, the second 匚 -shaped frame is respectively arranged on the front and the rear sides of the first adjacent 匚 -shaped frame, and the sleeves and the extension rods are connected, locked and fixed, and relative sliding of the sleeves and the extension rods are avoided.

Further, magnets are symmetrically arranged on the lower surface of the placement table, and are respectively arranged corresponding to the extension rods to adsorb and fix the accommodated sleeve.

Further, still include the handle, the handle is 冂 type structures, two vertical plate bodies of handle are connected through the connecting axle rotation with the front and back side of placing the platform respectively, and convenient portable carries.

Compared with the prior art, the utility model has the beneficial effects that: this slope geology reconnaissance sampling protector has following benefit:

1. The sleeve is accomodate and is placed the lower extreme inside of platform and is adsorbed fixedly by magnet, has reduced occupation space, conveniently carries.

2. The second frame of 匚 type is rotated ninety degrees to separate the two sleeves fixedly connected with the second frame of 匚 type from the magnet, at this time, the T-shaped pins respectively correspond to the limiting holes arranged on the side walls of the adjacent connecting frames, the arc-shaped ends of the T-shaped pins are inserted into the limiting holes arranged on the side walls of the connecting frames under the action of the first springs to moderately limit the sleeves, free rotation of the sleeves is avoided, the first 匚 type frame of the front side is pulled to the front side, the first 匚 type frame of the front side and the second 匚 type frame of the front side are mutually closed, the two corresponding connecting frames in the longitudinal direction are of an opening structure at the opposite inner ends and the lower ends, the two sleeves of the front side are rotated forward to the position vertical to the upper surface of the placing table at this time, the first 匚 type frame of the front side pulls the second racks of the front side to move, the two springs of the front side are compressed, the two racks II on the front side are separated from the rack I on the front side, the locking of the two racks I on the front side is relieved, the 匚 type frame I on the rear side is pulled to relieve the locking of the two racks I on the rear side, at the moment, the four extension rods slide downwards under the action of gravity, the four foot supporting plates are in contact with the slope surface, the placing table is adjusted to be in a horizontal state, then the two 匚 type frames I are loosened, the spring II pushes the racks II to reset to be clamped with the adjacent racks I under the action of self elastic force, the extension rods are locked and fixed, then the placing table is pressed downwards to enable the cone thorns to be inserted into the ground, the friction force between the cone thorns and the slope surface is improved, the sampling bottle for slope address investigation sampling is placed on the upper surface of the placing table, and the sleeve and the extension rods can effectively prevent sample dumping in the process of the placing table, and smooth sample throwing of the sampling work is ensured.

3. In the sampling process, the partition plate can be inserted into the corresponding slot according to the requirements, so that different types of samples are blocked, and the influence on investigation data caused by mixing of different samples is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the bottom structure of the present utility model;

fig. 3 is an enlarged schematic view of the structure of the present utility model at a.

In the figure: 1 placing table, 2 fences, 3 handles, 4 groove frames, 5 sleeves, 6 extension rods, 7 foot support plates, 71 cone spines, 8 limit components, 81 cavities, 82T-shaped pins, 83 spring I, 9 locking components, 91 rack I, 92 匚 type frame I, 93 spring II, 94 rack II, 95 匚 type frame II, 10 slots, 11 partition plates and 12 magnets.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present embodiment provides a technical solution: a slope geological investigation sampling protection device comprises a placing table 1, a limiting assembly 8 and a locking assembly 9;

Placing table 1: the fence 2 is arranged on the outer edge of the upper surface of the fence, the slots 10 are arranged on the inner array of the fence 2, the partition plates 11 are inserted between the two corresponding slots 10 in the transverse direction, the partition plates 11 can be inserted into the corresponding slots 10 according to the requirements in the sampling process, different types of samples are blocked, different samples are prevented from being mixed to influence investigation data, the connecting frames 4 are symmetrically arranged in the grooves formed in the lower surface of the placing table 1, the two connecting frames 4 which correspond longitudinally are of an opening structure relative to the inner side and the lower end, sleeves 5 are respectively connected between the left side wall and the right side wall of the connecting frames 4 in a rotating mode, the inner walls of the sleeves 5 are respectively connected with extension rods 6 in a sliding mode, the lower ends of the extension rods 6 are respectively connected with foot supporting plates 7 in a rotating mode, conical thorns 71 are arranged on the lower surfaces of the foot supporting plates 7 in an array mode, the conical thorns 71 are inserted into the ground in a pressing mode, friction force between the conical thorns and the slope surfaces is improved, magnets 12 are symmetrically arranged on the lower surfaces of the placing table 1, the magnets 12 are respectively arranged in the corresponding to the extension rods 6, the sleeves 5 are contained in the lower end of the placing table 1 and are adsorbed and fixed by the magnets 12, occupied space is reduced, and the lower end of the placing table 1 is convenient to carry.

Limit component 8: the limiting component 8 is respectively inserted into the inner side walls of the adjacent connecting frames 4, the limiting component 8 comprises a cavity 81, T-shaped pins 82 and a first spring 83, the cavity 81 is respectively arranged in the upper end of the sleeve 5, the inner walls of the cavity 81 are respectively and slidably connected with the T-shaped pins 82, the horizontal parts of the T-shaped pins 82 respectively penetrate through the through holes formed in the upper ends of the sleeve 5 and are inserted into the inner side walls of the adjacent connecting frames 4, the inner walls of the cavity 81 deviating from the T-shaped pins 82 and the first spring 83 are respectively arranged between the inner walls of the T-shaped pins 82 and the T-shaped pins 82, when the sleeve 5 rotates to a vertical state, the T-shaped pins 82 respectively correspond to the limiting holes formed in the side walls of the adjacent connecting frames 4, and the arc-shaped ends of the T-shaped pins 82 are inserted into the limiting holes formed in the side walls of the connecting frames 4 under the thrust action of the first spring 83, so that the sleeve 5 is moderately limited, and free rotation of the sleeve 5 is avoided.

Locking assembly 9: the locking component 9 is fixedly connected with the lower ends of two transversely corresponding sleeves 5 respectively, the locking component 9 comprises a first rack 91, a second 匚 type frame 92, a second spring 93, a second rack 94 and a second 匚 type frame 95, the first rack 91 is respectively arranged on the front side surface of the two front extension rods 6 and the rear side surface of the two rear extension rods 6, the first 匚 type frame 92 is respectively inserted into the side walls of the two sleeves 5, the two ends of the first 匚 type frame 92 are respectively provided with a second rack 94, the second rack 94 is respectively clamped with the adjacent first rack 91, the outer surfaces of the left end and the right end of the first 匚 type frame 92 are respectively sleeved with the second spring 93, the two ends of the second spring 93 are respectively fixedly connected with the side surface of the second rack 94 deviating from the first rack 91 and the inner wall of the sleeve 5, the two ends of the second 匚 type frame 95 are respectively fixedly connected with the lower ends of the two transversely corresponding sleeves 5, the 匚 type frame two 95 is respectively and correspondingly arranged with the adjacent 匚 type frame one 92, the front 匚 type frame one 92 is pulled to the front side, the front 匚 type frame one 92, the front 匚 type frame two 95 and the front transverse plate body are mutually closed, because the opposite inner side ends and the lower ends of the two connecting frames 4 which are longitudinally corresponding are of an opening structure, the front two sleeves 5 are maximally rotated to the position vertical to the upper surface of the placing table 1, at the moment, the front 匚 type frame one 92 pulls the front two racks two 94 to move, the front two springs two 93 are compressed, the front two racks two 94 are separated from the front rack one 91, the locking of the front two racks one 91 is released, the two 匚 type frames one 92 are released, the springs two racks two 94 are pushed to reset under the action of self elastic force to be clamped with the adjacent racks one 91, the extension rod 6 is locked and fixed.

Wherein: still include handle 3, handle 3 is 冂 type structures, and two vertical plate bodies of handle 3 are connected through the connecting axle rotation with the front and back side of placing platform 1 respectively, and convenient portable carries.

The working principle of the slope geological investigation sampling protection device provided by the utility model is as follows:

In the initial state, the sleeve 5 is contained in the lower end of the placing table 1 and is adsorbed and fixed by the magnet 12, the occupied space is reduced, the carrying is convenient, when the portable type three-dimensional rotating table is used, the 匚 type two 95 is rotated to enable the 匚 type two 95 to drive the two sleeves 5 fixedly connected with the two sleeves to be separated from the magnet 12, at the moment, the T-shaped pins 82 respectively correspond to the limiting holes arranged on the side walls of the adjacent connecting frames 4, the arc-shaped ends of the T-shaped pins 82 are inserted into the limiting holes arranged on the side walls of the connecting frames 4 under the thrust of the first spring 83, the sleeve 5 is moderately limited, free rotation of the sleeve 5 is avoided, the 匚 type one 92 on the front side is pulled to enable the 匚 type one 92 on the front side, the 匚 type two 95 on the front side and the transverse plate on the front side to be mutually closed, as the corresponding two corresponding inner side ends and the lower ends of the connecting frames 4 are of the opening structure, the two sleeves 5 on the front side are rotated to the position vertical to the upper surface of the placing table 1 at the maximum, at this time, the first 匚 frame 92 on the front side pulls the two racks 94 on the front side to move, the two springs 93 on the front side are compressed, the two racks 94 on the front side are separated from the first rack 91 on the front side, the locking of the two racks 91 on the front side is released, and similarly, the first 匚 frame 92 on the rear side is pulled to release the locking of the two racks 91 on the rear side, at this time, the four extension rods 6 slide downwards under the action of gravity, so that the four foot support plates 7 are in contact with the slope surface, the placement table 1 is adjusted to be in a horizontal state, then the two first 匚 frames 92 are released, the two springs 93 push the racks 94 to be clamped with the adjacent racks 91 under the action of self-elastic force, lock and fix the extension rods 6, then the placement table 1 is pressed downwards, so that the cone thorns 71 are inserted into the ground, the friction force with the slope surface is improved, the sampling bottle of taking a sample with slope address reconnaissance is placed on the upper surface of placing platform 1, and sleeve 5 and extension rod 6 can effectively avoid pouring the sample at the in-process of sampling operation to place platform 1 and throw, guarantees going on smoothly of sampling operation, and the in-process of taking a sample can also insert baffle 11 inside the slot 10 that corresponds according to the demand, carries out the separation to different grade type sample, avoids different sample mixtures and influences reconnaissance data.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.

Claims

1. Slope geology reconnaissance sampling protector, its characterized in that: comprises a placing table (1), a limiting component (8) and a locking component (9);

Placing table (1): the upper surface outer edge of the rack is provided with a fence (2), an inner array of the fence (2) is provided with slots (10), a partition plate (11) is inserted between two slots (10) which transversely correspond to each other, connecting frames (4) are symmetrically arranged in grooves formed in the lower surface of the placing table (1), the inner side ends and the lower ends of the two connecting frames (4) which longitudinally correspond to each other are of an opening structure, sleeves (5) are rotationally connected between the left side wall and the right side wall of each connecting frame (4), the inner walls of the sleeves (5) are slidably connected with extension rods (6), the lower ends of the extension rods (6) are rotationally connected with foot support plates (7), and conical spines (71) are uniformly arranged on the lower surfaces of the foot support plates (7) in an array mode;

Spacing subassembly (8): the limiting assemblies (8) are respectively inserted into the side walls of the adjacent connecting frames (4);

Locking assembly (9): the locking assembly (9) is fixedly connected with the lower ends of the two transversely corresponding sleeves (5) respectively.

2. A slope geological survey sampling guard according to claim 1, characterized in that: spacing subassembly (8) include cavity (81), T type round pin (82) and first spring (83), cavity (81) set up respectively inside the upper end of sleeve (5), the equal sliding connection of inner wall of cavity (81) has T type round pin (82), the horizontal part of T type round pin (82) passes the through-hole that sleeve (5) upper end set up respectively and peg graft inside adjacent connecting frame (4) lateral wall, all be equipped with first spring (83) between the inner wall that deviates from T type round pin (82) and T type round pin (82) inside cavity (81).

3. A slope geological survey sampling guard according to claim 1, characterized in that: the locking assembly (9) comprises a first rack (91), a second 匚 type frame (92), a second spring (93), a second rack (94) and a second 匚 type frame (95), wherein the first rack (91) is respectively arranged on the front side of the two extension rods (6) and the rear side of the two extension rods (6), the first 匚 type frame (92) is respectively inserted into the side walls of the two sleeves (5), the two ends of the first 匚 type frame (92) are respectively provided with a second rack (94), the second rack (94) is respectively connected with the first adjacent rack (91) in a clamping mode, the outer surfaces of the left end and the right end of the first 匚 type frame (92) are respectively sleeved with the second spring (93), the two ends of the second spring (93) are respectively fixedly connected with the side surface of the second rack (94) deviating from the first rack (91) and the inner wall of the sleeve (5), the two ends of the second 匚 type frame (95) are respectively fixedly connected with the lower ends of the two corresponding sleeves (5) in the transverse direction, and the second 匚 is respectively arranged on the outer side of the second rack (92) and the first rack (95) is correspondingly arranged on the second front side of the second frame (匚).

4. A slope geological survey sampling guard according to claim 1, characterized in that: magnets (12) are symmetrically arranged on the lower surface of the placement table (1), and the magnets (12) are respectively arranged corresponding to the extension rods (6).

5. A slope geological survey sampling guard according to claim 1, characterized in that: the lifting handle (3) is of a 冂 -shaped structure, and two vertical plate bodies of the lifting handle (3) are respectively connected with the front side and the rear side of the placing table (1) in a rotating mode through connecting shafts.