CN114577521B - Engineering geology reconnaissance sample sampling device - Google Patents

Abstract

The invention provides an engineering geological survey sample sampling device which comprises a driving frame, wherein a sleeving hole is formed in the driving frame, a driving rod is rotatably connected in the sleeving hole, a driving motor is arranged on the driving frame, the driving rod is fixedly connected to the output end of the driving motor, a limiting frame is arranged on the driving frame, two mounting plates are symmetrically arranged on the limiting frame, two limiting assemblies are symmetrically arranged on the limiting frame, each mounting plate is connected with the limiting frame through the limiting assemblies, a sample cylinder is connected between the two mounting plates, a first sample storage groove, a second sample storage groove, a third sample storage groove and a fourth sample storage groove are arranged in the sample cylinder, a sampling barrel is arranged at the bottom of the sample cylinder, the sampling barrel is communicated with the sample cylinder, a drill bit is connected to the driving rod in a buckling mode, spiral teeth are arranged on the circumferential outer wall of the drill bit, and the drill bit is arranged in the sampling barrel and the sample cylinder. The invention can directly form a plurality of equivalent samples to be detected during geological exploration sampling, does not need manual sample separation after geological exploration sampling, and is convenient for later operation.

Description

Engineering geology reconnaissance sample sampling device

Technical Field

The invention relates to the technical field of geological exploration sampling devices, in particular to an engineering geological exploration sample sampling device.

Background

The hydrologic and engineering geology profession, which is a hydrology and engineering geology profession, develops from finding and utilizing underground water sources, and gradually develops theoretical research around practical application, and the engineering geology is a science for investigating, researching and solving geological problems related to human activities and various engineering buildings. The hydraulic engineering ring major can work in the aspects of engineering geological exploration and design, water conservancy and hydropower exploration and design, urban and rural construction planning, road traffic exploration design, mine enterprises, environmental monitoring, national and local resource management and the like.

The hydraulic ring comprises environmental geological survey, monitoring and evaluation, the field of geological engineering takes natural science and earth science as theoretical basis, and engineering problems related to geological survey, general survey and exploration of mineral resources, and geological structure and geological background of major engineering are taken as main objects.

The geological survey includes geological survey sampling, which is a general term for collecting a certain sample from a geological environment according to a certain specification requirement, and carrying out the whole work of testing, testing or identifying after processing, and the aim is to research the physical and chemical properties of geology. After the sampling material is obtained in geological exploration, the sampling material needs to be detected.

Current geological survey sampling device carries out the broken back of geology with the help of broken structure, and the manual work is selected the storage to broken article, and when taking a sample after carrying out the geological survey, needs the manual work to bring back wait to examine the thing and separate, forms a plurality of equivalent again and wait to examine the sample, and whole process loaded down with trivial details degree is great, the later stage operation of being not convenient for. Therefore, the invention provides a sampling device for engineering geological exploration samples.

Disclosure of Invention

The invention aims to provide an engineering geological exploration sample sampling device, and aims to solve the problems that the existing geological exploration sampling device in the background art is inconvenient to operate in the later period, the engineering geological exploration sampling device is large in complexity in the whole process and large in difficulty in later period, all the existing geological exploration sampling devices are used for manually selecting and storing broken articles after geological crushing is carried out by means of a crushing structure, and the returned to-be-detected articles need to be manually separated when sampling is carried out after geological exploration, so that a plurality of equal-quantity to-be-detected samples are formed.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an engineering geological survey sample sampling device, includes the carriage, the suit hole has been seted up on the carriage, the suit downthehole rotation of suit is connected with the actuating lever, be provided with driving motor on the carriage, actuating lever fixed connection is in driving motor's output, be provided with spacing on the carriage, the symmetry is provided with two mounting panels on the spacing, the symmetry is provided with two spacing subassemblies on the spacing, every the mounting panel all links to each other with spacing through spacing subassembly, every spacing subassembly all includes main connecting rod and vice connecting rod, main connecting rod is connected between mounting panel and spacing, vice connecting rod runs through spacing setting and vice connecting rod is close to the one end through mounting panel setting of mounting panel, two be connected with the sample section of thick bamboo between the mounting panel, be provided with the sample storage groove one, two that are convenient for the sample piecemeal in the sample section of thick bamboo, Deposit appearance groove two, deposit appearance groove three and deposit appearance groove four, sample bobbin base portion is provided with the sample bucket, sample bucket bottom opening sets up, the sample bucket is linked together with a sample section of thick bamboo, the buckle is connected with the drill bit on the actuating lever, the circumference outer wall of drill bit is provided with the helical tooth, the drill bit sets up in sample bucket and a sample section of thick bamboo.

Preferably, every equal fixedly connected with support frame in mounting panel bottom, two be connected with the buffering frame between the support frame, buffering frame bottom is provided with the diaphragm, the sample bucket runs through the diaphragm setting.

Preferably, the top of the sampling barrel is connected with a combined ring, the inner wall of the combined ring is provided with an inner groove, a sealing female ring is connected in the inner groove in a buckling mode, and a sealing sub-ring is connected in the inner wall of the sealing female ring in a buckling mode.

Preferably, an inner container is arranged in the sample cylinder, and the first sample storage groove, the second sample storage groove, the third sample storage groove and the fourth sample storage groove penetrate through the inner container.

Preferably, the outer wall of the inner container, which is close to the sample cylinder, is symmetrically provided with two sliding grooves, the inner wall of the sample cylinder is symmetrically and fixedly connected with two sliding plates which slide in the sliding grooves, and the sliding plates are slidably connected in the corresponding sliding grooves.

Preferably, the side wall of the driving frame is fixedly connected with two reinforcing rods, and the two reinforcing rods are respectively arranged on two sides of the driving motor.

Preferably, the bottom of the transverse plate is in threaded connection with a plurality of feet, and each foot is sleeved with a rubber sleeve.

Compared with the prior art, the invention has the beneficial effects that:

this kind of engineering geological survey sample sampling device, combination application through the accessory, the setting carries driving motor's drive frame, and come to guide the actuating lever of driving motor output with the help of spacing combination sample bucket, the drill bit that carries the helical tooth bores reverse rotation behind the soil, make geological sample retrieve to the sampling bucket in, and continue to transmit a sample section of thick bamboo, the detachable inner bag has in the sample bucket, the inner bag carries a plurality of removable mould's stock sample groove, can directly form a plurality of equivalent when carrying out the geological survey sample and wait to examine the sample, need not to carry out the separation of manual sample after the geological survey sample, the later stage operation of being convenient for.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a sampling device based on engineering geological exploration;

FIG. 2 is a schematic structural diagram of a sampling frame of the sampling device based on engineering geological exploration samples;

FIG. 3 is a schematic view of the structure of a drill bit of the sampling device based on engineering geological exploration samples;

FIG. 4 is a schematic diagram of a sampling barrel of the sampling device for engineering geological exploration;

FIG. 5 is a schematic view of a sample cylinder of the sampling device for engineering geological exploration samples according to the present invention;

fig. 6 is a partially enlarged schematic view of a portion a of fig. 5.

In the figure: 100. a driving frame; 110. a reinforcing rod; 120. a drive rod; 130. a drive motor; 200. a limiting frame; 210. a main connecting rod; 220. a secondary connecting rod; 230. mounting a plate; 240. a sample cartridge; 241. an inner container; 242. a first sample storage groove; 243. a second sample storage groove; 244. a third sample storage groove; 245. a sample storage groove IV; 246. a chute; 247. a slide plate; 250. a sampling barrel; 251. a combination ring; 252. sealing the female ring; 253. sealing the sub-ring; 260. a drill bit; 261. helical teeth; 300. a support frame; 310. a buffer frame; 320. a transverse plate; 330. and (5) footing.

Detailed Description

The technical solution of the present invention will be further described in detail below with reference to the accompanying drawings and the detailed description, so as to clearly and completely describe the technical solution of the present invention. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

as shown in fig. 1-6, an engineering geological survey sample sampling device comprises a driving frame 100, a sleeving hole is formed in the driving frame 100, a driving rod 120 is rotatably connected in the sleeving hole, a driving motor 130 is arranged on the driving frame 100, the driving rod 120 is fixedly connected to the output end of the driving motor 130, a limiting frame 200 is arranged on the driving frame 100, two mounting plates 230 are symmetrically arranged on the limiting frame 200, two limiting components are symmetrically arranged on the limiting frame 200, each mounting plate 230 is connected with the limiting frame 200 through a limiting component, each limiting component comprises a main connecting rod 210 and an auxiliary connecting rod 220, the main connecting rod 210 is connected between the mounting plates 230 and the limiting frame 200, the auxiliary connecting rod 220 penetrates through the limiting frame 200, one end of the auxiliary connecting rod 220, which is close to the mounting plates 230, penetrates through the mounting plates 230, a sample barrel 240 is connected between the two mounting plates 230, a sample storing groove 242, which is convenient for sample partitioning, is formed in the sample barrel 240, The sample storage groove II 243, the sample storage groove III 244 and the sample storage groove IV 245 are arranged on the bottom of the sample barrel 240, the sampling barrel 250 is arranged at the bottom of the sample barrel, the sampling barrel 250 is communicated with the sample barrel 240, the driving rod 120 is connected with the drill bit 260 in a buckling mode, the outer wall of the circumference of the drill bit 260 is provided with a spiral tooth 261, and the drill bit 260 is arranged in the sampling barrel 250 and the sample barrel 240.

The driving motor is arranged to generate a driving force for the driving rod 120, the driving rod 120 is selected to be matched with the driving motor 130, and the specific number and size of the first sample storage slot 242, the second sample storage slot 243, the third sample storage slot 244 and the fourth sample storage slot 245 are adjusted according to actual requirements. The arrangement of the helical teeth 261 can increase the drilling capability of the drill bit 260 and effectively recover geological exploration samples during recovery.

The height of the driving motor 130 can be adjusted according to actual requirements, the type of the driving motor 130 can be directly selected from common types in the market, the types of the wireless transmitter, the variable frequency controller and the storage battery can be selected from common types in the market, and an external port can be reserved in the storage battery.

The 230 equal fixedly connected with support frame 300 in bottom of every mounting panel is connected with buffering frame 310 between two support frames 300, and buffering frame 310 bottom is provided with diaphragm 320, and sample bucket 250 runs through the setting of diaphragm 320. The arrangement of the transverse plate 320 facilitates supporting the buffering frame 310, and meanwhile, the buffering frame 310 can be adjusted to be a buffering supporting structure with a hydraulic structure, so as to improve the matching of buffering.

The top of the sampling barrel 250 is connected with a combined ring 251, the inner wall of the combined ring 251 is provided with an inner groove, a sealing female ring 252 is connected in a buckling mode in the inner groove, and a sealing sub-ring 253 is connected in a buckling mode in the inner wall of the sealing female ring 252. The combination ring 251, in cooperation with the sealing female ring 252 and the sealing sub-ring 253, can improve the combinability between the sample barrel 240 and the sampling barrel 250.

An inner container 241 is provided in the sample cylinder 240, and a first sample storage tank 242, a second sample storage tank 243, a third sample storage tank 244, and a fourth sample storage tank 245 are provided to penetrate the inner container 241. The setting of inner bag 241 is convenient for effectual storage and change, directly wholly takes out when carrying out sample collection, does not influence the continuation of sample holder 240 after assembling other inner bags 241.

Two sliding grooves 246 are symmetrically formed in the outer wall, close to the sample cylinder 240, of the inner container 241, two sliding plates 247 sliding in the sliding grooves 246 are symmetrically and fixedly connected to the inner wall of the sample cylinder 240, and the sliding plates 247 are slidably connected to the corresponding sliding grooves 246. The chute 246 and the sliding block can improve the combining ability of the sample cylinder 240 and the inner container 241, and can also avoid the sliding of the inner container 241 on the sample cylinder 240, thereby improving the stability.

Two reinforcing rods 110 are fixedly connected to the side wall of the driving frame 100, and the two reinforcing rods 110 are respectively disposed at two sides of the driving motor 130. The reinforcing rod 110 can improve the supporting strength of the driving frame 100, and the shape of the reinforcing rod 110 can be designed to be trapezoidal or triangular, so as to increase the supporting performance of the driving frame 100.

The bottom threaded connection of diaphragm 320 has a plurality of footing 330, all cup joints the rubber sleeve on every footing 330. Footing 330 plays the effect of support to diaphragm 320, and the rubber sleeve can improve frictional force, and then improves the stability of supporting.

In order to increase the combination capacity of the first sample storage groove 242, the second sample storage groove 243, the third sample storage groove 244 and the fourth sample storage groove 245 and facilitate mold replacement as required, specifically, buckle sleeves are bonded on the inner sides of the first sample storage groove 242, the second sample storage groove 243, the third sample storage groove 244 and the fourth sample storage groove 245, and outer molds are sleeved on the inner walls of the buckle sleeves.

When the sample taking device is used specifically, firstly, the reinforcing rod 110 is connected on the driving frame 100, so that the strength of the driving frame 100 is convenient to improve, the driving rod 120 carrying the driving motor 130 is sleeved at the top of the driving frame 100, the bottom of the driving frame 100 is connected with the limiting frame 200, the bottom of the limiting frame 200 is connected with the main connecting rod 210 and the auxiliary connecting rod 220, the bottom of the main connecting rod 210 and the bottom of the auxiliary connecting rod 220 are connected with the limiting frame 200, the inner wall of the limiting frame 200 is provided with the sample barrel 240, the bottom of the sample barrel 240 is connected with the sampling barrel 250 convenient to be guided by the drill bit 260, the inside of the sampling barrel 250 contains the mutually combined sealing female ring 252 and the sealing sub-ring 253, so as to avoid the leakage between the sample barrel 240 and the sampling barrel 250, the inside of the sample barrel 240 is provided with the sliding combined inner container 241, the inner container 241 is provided with the first sample storage groove 242, the second storage groove 243, the third storage groove 244 and the fourth storage groove 245, and the drill bit 260 carrying the spiral teeth 261 rotates, during the material structure recovery sampling bucket 250 of geological survey sample, and give sample cylinder 240 through sampling bucket 250 transmission, the material of the geological survey sample of sample cylinder 240 can fill in the filling process and deposit appearance groove one 242, deposit appearance groove two 243, deposit appearance groove three 244 and deposit appearance groove four 245, directly form a plurality of equivalent when carrying out the geological survey sample and wait to examine the sample, need not to carry out the separation of manual sample after the geological survey sample, the later stage operation of being convenient for.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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 (7)

1. An engineering geological survey sample sampling device, includes drive frame (100), its characterized in that: the driving rack (100) is provided with a sleeving hole, the sleeving hole is connected with a driving rod (120) in a rotating manner, the driving rack (100) is provided with a driving motor (130), the driving rod (120) is fixedly connected with the output end of the driving motor (130), the driving rack (100) is provided with a limiting rack (200), the limiting rack (200) is symmetrically provided with two mounting plates (230), the limiting rack (200) is symmetrically provided with two limiting components, each mounting plate (230) is connected with the limiting rack (200) through the limiting component, each limiting component comprises a main connecting rod (210) and an auxiliary connecting rod (220), the main connecting rod (210) is connected between the mounting plate (230) and the limiting rack (200), the auxiliary connecting rod (220) penetrates through the limiting rack (200) and one end, close to the mounting plate (230), of the auxiliary connecting rod (220) penetrates through the mounting plate (230), two be connected with sample barrel (240) between mounting panel (230), be provided with in sample barrel (240) and be convenient for the sample blocking deposit appearance groove one (242), deposit appearance groove two (243), deposit appearance groove three (244) and deposit appearance groove four (245), sample barrel (240) bottom is provided with sampling bucket (250), sampling bucket (250) bottom opening sets up, sampling bucket (250) are linked together with sample barrel (240), the buckle is connected with drill bit (260) on actuating lever (120), the circumference outer wall of drill bit (260) is provided with helical tooth (261), drill bit (260) set up in sampling bucket (250) and sample barrel (240).

2. An engineering geological survey sample sampling device as defined in claim 1, wherein: every mounting panel (230) bottom equal fixedly connected with support frame (300), two be connected with buffering frame (310) between support frame (300), buffering frame (310) bottom is provided with diaphragm (320), sample bucket (250) run through diaphragm (320) and set up.

3. An engineering geological survey sample sampling device as defined in claim 1, wherein: the top of the sampling barrel (250) is connected with a combined ring (251), an inner groove is formed in the inner wall of the combined ring (251), a sealing female ring (252) is connected in the inner groove in a buckling mode, and a sealing sub-ring (253) is connected in the inner wall of the sealing female ring (252) in a buckling mode.

4. An engineering geological survey sample sampling device as defined in claim 1, wherein: an inner container (241) is arranged in the sample cylinder (240), and the first sample storage groove (242), the second sample storage groove (243), the third sample storage groove (244) and the fourth sample storage groove (245) penetrate through the inner container (241).

5. An engineering geological survey sample sampling device as defined in claim 4, wherein: two sliding grooves (246) are symmetrically formed in the outer wall, close to the sample cylinder (240), of the inner container (241), two sliding plates (247) sliding in the sliding grooves (246) are symmetrically and fixedly connected to the inner wall of the sample cylinder (240), and the sliding plates (247) are slidably connected to the corresponding sliding grooves (246).

6. An engineering geological survey sample sampling device according to any one of claims 1-5, wherein: two reinforcing rods (110) are fixedly connected to the side wall of the driving frame (100), and the two reinforcing rods (110) are respectively arranged on two sides of the driving motor (130).

7. An engineering geological survey sample sampling device as defined in claim 2, wherein: the bottom threaded connection of diaphragm (320) has a plurality of footing (330), every all cup joint the rubber sleeve on footing (330).

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