CN213397724U - Portable geological exploration is with interim storage device of multi-functional ore sample - Google Patents

Abstract

The utility model relates to a geological exploration technical field specifically is a portable geological exploration is with interim storage device of multi-functional ore sample, including bin and electric drill, the bin includes first case of deposit, one side of first case of deposit is provided with two sets of gyro wheels, and the both ends of gyro wheel center pin all are connected with first case of deposit fixed surface through embedded bearing, the flexible handle of one side fixedly connected with of gyro wheel is kept away from to first case of deposit, two sets of slots have all been seted up to the both sides of first case of deposit, and the inside of slot all is provided with the slide bar to the one end of slide bar all passes the slot inner wall and extends to the slot outside, the top of first case of deposit is provided with two sets of second case of deposit. The utility model discloses change different instruments and take a sample, and easy operation is convenient, and the device internal region is striden clearly and definitely, provides the article of depositing the region to different kind or different volumes, improves the inside clean and tidy degree of device, is convenient for take, prevents that the sample from mixing and leading to the testing result fuzzy.

Description

Portable geological exploration is with interim storage device of multi-functional ore sample

Technical Field

The utility model relates to a geological exploration technical field specifically is a portable geological exploration is with multi-functional ore sample temporary storage device.

Background

Along with the continuous progress of society, science is more and more developed, and people also have a variety of ways of exploring to the material, and in the process of geological exploration, the ore occupies a large part, often the exploration is carried back to and is handed over by various instruments and professional after the outdoor sample, researches physical, chemical and other properties of ore, but the ore is heavier, in order to more accurate to the testing result, often need sample more to increase the detection base number, so carry and the storage after the sample is very inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable geological exploration is with interim storage device of multi-functional ore sample to the ore of proposing in solving above-mentioned background is heavier, in order to be more accurate to the testing result, often needs the sample more to increase the detection cardinal number, so carry and the very inconvenient problem of storage after the sample.

In order to achieve the above object, the utility model provides a following technical scheme: a portable multifunctional ore sampling temporary storage device for geological exploration comprises a storage box and an electric drill, wherein the storage box comprises a first storage box, two groups of rollers are arranged on one side of the first storage box, two ends of a roller central shaft are fixedly connected with the surface of the first storage box through embedded bearings, a telescopic handle is fixedly connected to one side of the first storage box, which is far away from the rollers, two groups of slots are formed in two sides of the first storage box, slide rods are arranged inside the slots, one ends of the slide rods penetrate through the inner walls of the slots and extend to the outside of the slots, two groups of second storage boxes are arranged at the top of the first storage box, one ends of the slide rods, which are arranged outside the slots, are fixedly connected with the bottoms of the second storage boxes, a third storage box is arranged at the top of the second storage box, six groups of blocking ports are uniformly formed in the third storage box, and two groups of connecting rods are hinged to two sides of the third storage box, one end of the connecting rod close to the second storage box is hinged with the surface of the second storage box, two groups of sealing covers are arranged on the outer side of the first storage box, one side of the sealing cover close to the top of the first storage box is hinged with the first storage box, the surfaces of a group of the sealing covers are fixedly connected with a female lock catch, the surfaces of a group of the sealing covers are fixedly connected with a male lock catch, the first storage box is internally provided with a placing groove, an electric drill is placed in the placing groove, and the end of the electric drill is provided with a first connecting component which comprises an inner plate, the inner plate is fixedly connected with a driving shaft of the electric drill, four groups of inner grooves are arranged on the surface of the inner plate, the inner parts of the inner grooves are fixedly connected with first springs, and the end of the first spring arranged outside the inner groove is fixedly connected with clamping blocks, four groups of second connecting assemblies are arranged inside the first storage box, and the second connecting assemblies are arranged inside the second storage box.

Preferably, the second coupling assembling includes the lagging, and has seted up four groups of draw-in grooves on the inner wall of lagging, the outside of lagging is evenly inserted and is equipped with four groups of inserted bars, and inside the one end of inserted bar all extended to the draw-in groove, two sets of second springs of the all fixedly connected with of the other end of inserted bar, and the one end of second spring all with lagging fixed surface be connected, four groups the all fixedly connected with drill bit in one side of lagging, a set of one side of lagging is provided with and bores the subassembly of getting.

Preferably, it includes the connection pad to bore the subassembly of getting, and connection pad and lagging fixed connection, one side fixedly connected with that the lagging was kept away from to the connection pad bores a section of thick bamboo, and the inside of boring a section of thick bamboo is provided with the push pedal to push pedal fixed surface is connected with the ejector pad, the one end of ejector pad is passed and is bored a section of thick bamboo inner wall and extend to and bore a section of thick bamboo outside, one side cover that the lagging was kept away from to the connection pad is equipped with the sleeve.

Preferably, the slide bar is arranged in two sets of sliders of the one end fixedly connected with inside the slot, two sets of chutes have been seted up on the inner wall of slot, the sliders all extend to inside the chute.

Preferably, the surface that connection pad and sleeve were laminated mutually is provided with the external screw thread, the inner wall that sleeve and connection pad were laminated mutually is provided with the internal thread, connection pad and sleeve pass through helicitic texture fixed connection.

Preferably, the surface of the sleeve is fixedly connected with the lugs, and the number of the lugs is six.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of changing different tools for sampling, simple and convenient operation, clear internal area span of the device, providing storage areas for different types or different volumes of articles, improving the internal neatness of the device, being convenient for taking, and preventing the sample from mixing to cause fuzzy detection results;

1. the ore sampling device is provided with a drill bit and a drilling assembly, a user connects a first connecting assembly with a second connecting assembly on the drill bit, the ore can be drilled and crushed by the drill bit, different crushed ore is selected and collected to be detected, or the second connecting assembly on the drilling assembly is connected with the first connecting assembly, the sleeve is held, the connecting disc is rotated, the first connecting assembly and the second connecting assembly are separated, the drilling barrel is drilled into the ore wall in an aligning mode, the ore can be reserved in the drilling barrel for sampling, the ore in the drilling barrel can not be mixed with the outside after the sleeve is installed back, the situation that different ores cannot be distinguished when excessive sampling is avoided, the drilling assembly or the drill bits with different specifications are used alternatively, the ore sampling device is suitable for ore sampling work with different properties, the replacement operation is simple and convenient, the work is convenient, and the;

2. be provided with the second and deposit the case with the third, the instrument that the user used when will take a sample is arranged in the second and is deposited the case or first deposit the case, it arranges the second in and deposits the incasement to bore the subassembly, it is inside to arrange the broken ore of volume of sample in the shelves mouth, can keep apart between the sample, it is fuzzy to prevent that the sample from mixing to lead to the testing result, it is clear and definite that the device internal region strides, article to different kind or different volumes provide and deposit the region, improve the inside clean and tidy degree of device, be convenient for take, and the portable degree of gyro wheel and flexible handle improve the device removal in-process.

Drawings

FIG. 1 is a schematic sectional view of the front view of the structure of the present invention;

FIG. 2 is a schematic top view of the structure of the present invention;

fig. 3 is a schematic top sectional view of a first connecting assembly according to the present invention;

fig. 4 is a schematic top sectional view of the structure of the second connection assembly and the drilling assembly of the present invention.

In the figure: 100. a storage tank; 110. a first storage box; 111. a roller; 112. a telescopic grip; 120. a slot; 121. a slide bar; 130. a second storage box; 140. a third storage box; 141. a blocking opening; 150. a connecting rod; 160. sealing the cover; 161. a female lock catch; 162. a secondary lock catch; 170. placing in a groove; 200. an electric drill; 210. a first connection assembly; 211. an inner plate; 212. an inner tank; 213. a first spring; 214. a clamping block; 220. a second connection assembly; 221. sheathing; 222. a card slot; 223. inserting a rod; 224. a second spring; 230. a drill bit; 300. drilling the assembly; 310. a connecting disc; 311. drilling a barrel; 312. pushing the plate; 313. a push block; 320. a sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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. 1-4, the present invention provides an embodiment:

a portable multifunctional ore sampling temporary storage device for geological exploration comprises a storage box 100 and an electric drill 200, wherein the storage box 100 comprises a first storage box 110, one side of the first storage box 110 is provided with two groups of rollers 111, two ends of a central shaft of each roller 111 are fixedly connected with the surface of the first storage box 110 through embedded bearings, one side of the first storage box 110, which is far away from the rollers 111, is fixedly connected with a telescopic handle 112, two sides of the first storage box 110 are respectively provided with two groups of slots 120, slide bars 121 are arranged inside the slots 120, one ends of the slide bars 121 extend to the outside of the slots 120 through the inner wall of the slots 120, the top of the first storage box 110 is provided with two groups of second storage boxes 130, one ends of the slide bars 121, which are arranged outside the slots 120, are fixedly connected with the bottoms of the second storage boxes 130, the top of the second storage boxes 130 is provided with third storage boxes 140, and six groups of notches 141 are uniformly arranged inside the third storage, two connecting rods 150 are hinged to both sides of the third storage box 140, one end of each connecting rod 150 close to the second storage box 130 is hinged to the surface of the second storage box 130, two sealing covers 160 are arranged on the outer side of the first storage box 110, one side of each sealing cover 160 close to the top of the first storage box 110 is hinged to the first storage box 110, a female lock catch 161 is fixedly connected to the surface of each sealing cover 160, a sub lock catch 162 is fixedly connected to the surface of each sealing cover 160, a storage groove 170 is formed in the first storage box 110, an electric drill 200 is placed in the storage groove 170, a first connecting assembly 210 is arranged at the end of the electric drill 200, each first connecting assembly 210 comprises an inner plate 211, 211 and is fixedly connected to a driving shaft of the electric drill 200, four groups of inner grooves 212 are formed in the surface of the inner plate 211, first springs 213 are fixedly connected to the inner parts of the inner grooves 212, and fixture blocks 214 are fixedly connected to one ends of the first springs 213, which are, four sets of second connecting assemblies 220 are placed inside the first storage box 110, and second connecting assemblies 220 are placed inside the second storage box 130;

further, the second connection assembly 220 includes a sleeve plate 221, four sets of slots 222 are formed in the inner wall of the sleeve plate 221, four sets of insertion rods 223 are uniformly inserted in the outer side of the sleeve plate 221, one ends of the insertion rods 223 extend into the slots 222, the other ends of the insertion rods 223 are fixedly connected with two sets of second springs 224, one ends of the second springs 224 are fixedly connected with the surface of the sleeve plate 221, drill bits 230 are fixedly connected to one sides of the four sets of sleeve plates 221, one side of one set of sleeve plate 221 is provided with a drilling assembly 300, and different types of drill bits 230 are used for crushing different ore walls;

further, the drilling assembly 300 comprises a connecting disc 310, the connecting disc 310 is fixedly connected with the bushing plate 221, one side, far away from the bushing plate 221, of the connecting disc 310 is fixedly connected with a drilling cylinder 311, a push plate 312 is arranged inside the drilling cylinder 311, the surface of the push plate 312 is fixedly connected with a push block 313, one end of the push block 313 penetrates through the inner wall of the drilling cylinder 311 and extends to the outside of the drilling cylinder 311, one side, far away from the bushing plate 221, of the connecting disc 310 is sleeved with a sleeve 320, the drilling cylinder 311 is drilled into large ores, and the drilling cylinder 311 is taken down, so that the ores are left inside the drilling cylinder 311 and taken down;

furthermore, two sets of sliding blocks are fixedly connected to one end of the sliding rod 121, which is disposed inside the slot 120, two sets of sliding grooves are formed in the inner wall of the slot 120, the sliding blocks all extend into the sliding grooves, and when the user moves the second storage box 130, the sliding rod 121 is driven to move inside the slot 120, the sliding block is driven to move inside the sliding grooves, and the moving range of the sliding rod 121 is limited;

further, the surface of the connecting disc 310, which is attached to the sleeve 320, is provided with external threads, the inner wall of the sleeve 320, which is attached to the connecting disc 310, is provided with internal threads, the connecting disc 310 and the sleeve 320 are fixedly connected through a thread structure, the sleeve 320 is held, the connecting disc 310 is rotated, the two are separated, the drill cylinder 311 can be used for sampling, and the sleeve 320 is sleeved after sampling is finished, so that the samples cannot be mixed;

furthermore, the surface of the sleeve 320 is fixedly connected with six groups of bumps, when a user holds the sleeve 320 and rotates the connecting disc 310, the bumps increase the resistance between the sleeve 320 and the hand, and the sleeve 320 and the connecting disc 310 are prevented from rotating simultaneously due to slipping.

The working principle is as follows: when a user takes a sample, the electric drill 200 is taken out of the groove 170, if the mine wall is firm, the sleeve plate 221 connected with the drill bit 230 is aligned with the inner plate 211 and sleeved on the inner plate 211, the inner wall of the sleeve plate 221 is abutted against the fixture block 214, so that the fixture block 214 moves towards the inner groove 212, the first spring 213 is compressed, when the fixture block 214 moves to the clamping groove 222, the fixture block 214 is pushed into the clamping groove 222 under the action of resilience force of the first spring 213, the first connecting assembly 210 is connected with the second connecting assembly 220, the electric drill 200 is started, the first connecting assembly 210 is driven to rotate, the second connecting assembly 220 is driven to rotate, the drill bit 230 is aligned with the ore to be sampled to drill, and the fallen crushed ore with proper size is picked up and placed in the blocking port 141 in the drilling process;

if the ore on the surface layer and the inner part of the ore wall needs to be sampled simultaneously, the inserted rod 223 of the second connecting component 220 connected with the first connecting component 210 at the moment is pressed towards the direction of being inserted into the clamping groove 222, so that the clamping block 214 is separated from the inside of the clamping groove 222, the first connecting component 210 and the second connecting component 220 are pulled out towards the direction of being away from each other, the drilling component 300 is replaced, the second connecting component 220 on the drilling component 300 is connected with the first connecting component 210, the sleeve 320 is held, the electric drill 200 is started, so that the connecting disc 310 is driven to rotate, the connecting disc 310 is separated from the sleeve 320, the drilling cylinder 311 is drilled into the wall, then the drilling cylinder is withdrawn, after the sample is reserved in the drilling cylinder 311, the sleeve 320 is connected with the connecting disc 310, the ore in the drilling cylinder 311 is stored, and when the sample in the drilling cylinder 311 needs to be taken out, the connecting disc 310 is separated from the sleeve, pushing the push block 313 to drive the push plate 312 to move inside the drill cylinder 311, so as to push the ore sample out of the drill cylinder 311;

after sampling, the taken out components are installed back, the third storage box 140 is lifted up and moved upwards respectively to be placed at the top of the second storage box 130, the second storage box 130 is pushed towards the direction of approaching each other, the slide rod 121 is driven to move towards the inside of the slot 120, the seal covers 160 are rotated towards the direction of approaching each other, the female lock catch 161 and the male lock catch 162 are buckled, so that the two sets of seal covers 160 are locked, the second storage box 130 and the third storage box 140 are sealed, the device is erected, the slot 120 is lengthened, the slot 120 is dragged, the roller 111 is driven to roll on the ground, and the equipment is moved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a portable geological exploration is with multi-functional ore sample temporary storage device, includes storage box (100) and electric drill (200), its characterized in that: the storage box (100) comprises a first storage box (110), two groups of rollers (111) are arranged on one side of the first storage box (110), two ends of a central shaft of each roller (111) are fixedly connected with the surface of the first storage box (110) through embedded bearings, one side, far away from the rollers (111), of the first storage box (110) is fixedly connected with a telescopic handle (112), two groups of slots (120) are formed in two sides of the first storage box (110), slide bars (121) are arranged inside the slots (120), one ends of the slide bars (121) penetrate through the inner walls of the slots (120) and extend to the outside of the slots (120), two groups of second storage boxes (130) are arranged on the top of the first storage box (110), one ends, arranged outside the slots (120), of the slide bars (121) are fixedly connected with the bottoms of the second storage boxes (130), and third storage boxes (140) are arranged on the tops of the second storage boxes (130), six groups of shelves (141) are uniformly arranged in the third storage box (140), two sides of the third storage box (140) are hinged with two groups of connecting rods (150), one end of each connecting rod (150) close to the second storage box (130) is hinged with the surface of the second storage box (130), two groups of sealing covers (160) are arranged on the outer side of the first storage box (110), one side of each sealing cover (160) close to the top of the first storage box (110) is hinged with the first storage box (110), one group of sealing covers (160) is fixedly connected with a female lock catch (161), one group of sealing covers (160) is fixedly connected with a sub lock catch (162), a placing groove (170) is arranged in the first storage box (110), an electric drill (200) is placed in the placing groove (170), a first connecting assembly (210) is arranged at the end of the electric drill (200), and the first connecting assembly (210) comprises an inner plate (211), the electric drill is characterized in that the inner plate (211) is fixedly connected with a drive shaft of an electric drill (200), four groups of inner grooves (212) are formed in the surface of the inner plate (211), first springs (213) are fixedly connected inside the inner grooves (212), clamping blocks (214) are fixedly connected to one ends, arranged outside the inner grooves (212), of the first springs (213), four groups of second connecting assemblies (220) are placed inside the first storage box (110), and second connecting assemblies (220) are placed inside the second storage box (130).

2. The portable multifunctional ore sampling temporary storage device for geological exploration according to claim 1, wherein: second coupling assembling (220) are including lagging (221), and have seted up four groups draw-in groove (222) on the inner wall of lagging (221), the outside of lagging (221) is evenly inserted and is equipped with four groups inserted bar (223), and the one end of inserted bar (223) all extends to inside draw-in groove (222), two sets of second spring (224) of all fixedly connected with of the other end of inserted bar (223), and the one end of second spring (224) all with lagging (221) fixed surface be connected, four groups all fixedly connected with drill bit (230) in one side of lagging (221), a set of one side of lagging (221) is provided with and drills to get subassembly (300).

3. The portable multifunctional ore sampling temporary storage device for geological exploration according to claim 2, wherein: drilling subassembly (300) includes connection pad (310), and connection pad (310) and lagging (221) fixed connection, one side fixedly connected with of lagging (221) is kept away from in connection pad (310) bores a section of thick bamboo (311), and the inside of boring a section of thick bamboo (311) is provided with push pedal (312) to push pedal (312) fixed surface is connected with ejector pad (313), the one end of ejector pad (313) is passed and is bored a section of thick bamboo (311) inner wall and extend to and bore a section of thick bamboo (311) outside, one side cover that lagging (221) was kept away from in connection pad (310) is equipped with sleeve (320).

4. The portable multifunctional ore sampling temporary storage device for geological exploration according to claim 1, wherein: the slide bar (121) is arranged in two sets of sliding blocks fixedly connected with one end inside the slot (120), two sets of sliding grooves are formed in the inner wall of the slot (120), and the sliding blocks extend into the sliding grooves.

5. The portable multifunctional ore sampling temporary storage device for geological exploration according to claim 3, wherein: the surface that connection pad (310) and sleeve (320) were laminated mutually is provided with the external screw thread, the inner wall that sleeve (320) and connection pad (310) were laminated mutually is provided with the internal thread, connection pad (310) and sleeve (320) pass through helicitic texture fixed connection.

6. The portable multifunctional ore sampling temporary storage device for geological exploration according to claim 3, wherein: the surface of the sleeve (320) is fixedly connected with six groups of convex blocks.

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