CN116165173A

CN116165173A - Rock salt is analytical test device for geological prospecting

Info

Publication number: CN116165173A
Application number: CN202310224589.2A
Authority: CN
Inventors: 刘芳; 田景雄; 何伟; 柴德亮; 刘波; 安百州; 马永祥; 张海波; 安娜
Original assignee: Geological Bureau Of Ningxia Hui Autonomous Region
Current assignee: Geological Bureau Of Ningxia Hui Autonomous Region
Priority date: 2023-03-09
Filing date: 2023-03-09
Publication date: 2023-05-26

Abstract

The invention belongs to the technical field of geological rock and mineral testing, and particularly relates to an analysis and test device for rock salt geological exploration, which comprises a material distribution component, a material carrying component and a test component; the top fixedly connected with apron of dividing the material subassembly, a plurality of groups of holes of throwing in have been seted up to the surface of apron, and a plurality of groups of throwing in the hole and be annular array setting with the axis of apron as the center, the bottom fixedly connected with dividing the material subassembly of carrying the material subassembly's inner wall, through the flexible effect that descends in the top of carrying the material subassembly, remove the rock ore fragment to dividing in the material subassembly for spacing effect before the rock ore fragment analysis test, the test module is rotatory to different angles for a plurality of groups of rock ore fragments in the separation subassembly are tested transparency and hardness, have improved the categorised efficiency of rock ore fragment batch test after the sample.

Description

Rock salt is analytical test device for geological prospecting

Technical Field

The invention belongs to the technical field of geological rock and mineral testing, and particularly relates to an analysis and test device for rock salt geological exploration.

Background

At present, field prospecting and mining of geological rock ores are generally carried out by prospecting staff in the field, then brought back to a laboratory for crushing, grinding and screening, then subjected to chemical analysis, further analyzed for element content of the ore sample, and generally subjected to element analysis operation of the ore through an ore element analyzer.

Through searching, in the prior art, the Chinese patent application number CN202220119625.X application date: 2022-11-18 discloses an element analysis device for geological rock and mineral analysis test, and relates to the field of geological rock and mineral. The device includes the analysis appearance main part, and the one end of analysis appearance main part is equipped with the fender lid, and the inside of fender lid is equipped with scanning light, and the upper surface fixed mounting of analysis appearance main part has first curb plate and second curb plate, is equipped with the shift ring between two sets of curb plates, and the inside activity grafting of shift ring has the test tube. When the device is used, through rotating the threaded rod, the connecting plate that the threaded rod surface screw thread cup jointed drives the removal ring and reciprocates, makes the lower surface of removal ring offset with the upper surface of analysis appearance main part, makes the part that many groups of test tubes are located the removal ring upper end be in the fretwork state to the one end of test tube is once only grabbed to the convenience, drives the test tube and shifts out from the inside of analysis appearance main part, effectively improves detection efficiency.

The device still has the following drawbacks: although the test tube can be driven to move out of the analyzer body, the detection efficiency is effectively improved, the threaded rod is required to be manually rotated, the automation degree is poor, and the test tube is not suitable for batch analysis and test.

Disclosure of Invention

In order to solve the problems, the invention provides an analysis and test device for rock salt geological exploration, which comprises a material distributing component, a material carrying component and a test component;

the top end of the material distribution assembly is fixedly connected with a cover plate, a plurality of groups of throwing holes are formed in the surface of the cover plate, the throwing holes are arranged in an annular array with the central axis of the cover plate as the center, the bottom end of the material carrying assembly is fixedly connected with the inner wall of the material distribution assembly, the top end of the material carrying assembly penetrates through the throwing holes and extends to the top end of the cover plate, the test assembly is fixedly connected to the top end of the cover plate, and one end of the test assembly is slidably connected to the inner wall of the material distribution assembly;

the material distribution assembly comprises a mounting cylinder; the inner wall movable fit of installation barrel is connected with the expansion ring, just the inner wall of expansion ring is provided with the spacing ring, the top fixedly connected with of spacing ring carries the material barrel of a plurality of groups, two sets of carry and be provided with first helical gear between the adjacent lateral wall of material barrel, two sets of the bottom of first helical gear all with the top fixed connection of spacing ring, the inner wall of expansion ring just is close to one side fixedly connected with two sets of gear brackets of first helical gear, two sets of all rotate on the gear bracket and be connected with the second helical gear, just the second helical gear all with first helical gear meshing is connected, two sets of the equal fixedly connected with in top of gear bracket first motor, just the output of first motor all is connected with the transmission of second helical gear.

Further, the inner wall fixedly connected with of expansion ring a plurality of groups of first electric putter and photosensitive receiving probe, just photosensitive receiving probe level sets up in one side of first electric putter, and a plurality of groups carry two sets of guide way have been seted up on the surface of material barrel, two sets of the guide way all communicates each other and the cooperation is used with first electric putter's output.

Further, the loading assembly comprises a support ring;

the outer wall fixed connection of support ring is at the inner wall of installation barrel, just the support ring is located the bottom of expansion ring, the top fixedly connected with of support ring accomodates the barrel, the inner wall of support ring is provided with the internal thread tooth, just threaded connection has the storage board on the internal thread tooth.

Further, a plurality of second electric putter of top fixedly connected with of support ring, and a plurality of groups the second electric putter is annular array setting as the center with the axis of support ring, a plurality of groups the top of second electric putter all with the bottom fixed connection of spacing ring.

Further, the output ends of the second electric push rods penetrate through the limiting rings and extend into the material carrying cylinder body and the throwing holes.

Further, the output end of the second electric push rod is in transmission connection with a linkage plate, and the linkage plate is movably attached to the inner wall of the material carrying cylinder body.

Further, the test assembly includes a mounting housing and a linkage mechanism;

the installation casing is cylindrical structure, just the bottom fixed connection of installation casing is in the top axis center department of apron, the inner wall top fixedly connected with second motor of installation casing, the output transmission of second motor is connected with the third electric putter, the output of third electric putter runs through the installation casing, and extends to the bottom and the link gear transmission of installation casing and be connected, link gear sliding connection is at the inner wall of spacing ring.

Further, the linkage mechanism comprises a linkage plate;

the center of the central axis of the linkage plate is in transmission connection with the output end of the third electric push rod, the outer wall of the linkage plate is in sliding fit connection with the inner wall of the limiting ring, the surface of linkage board has seted up the mounting groove, just the inner wall one end fixedly connected with fourth electric putter of mounting groove.

Further, the output transmission of fourth electric putter is connected with the mark sharp, the mark sharp extends to the guide way in and mutually support and use, outer wall one side fixedly connected with strong light source of output is kept away from to fourth electric putter.

Further, high definition digtal camera is installed in the top embedding of linkage board, just the bottom embedding of linkage board is installed ultraviolet light source, high definition digtal camera is the symmetry setting with ultraviolet light source, just high definition digtal camera and ultraviolet light source all are located one side of strong light source.

The beneficial effects of the invention are as follows:

1. through the inner wall intercommunication of throwing in hole and feed divider subassembly, make the tester place a plurality of groups of rock ore fragments after taking a sample in feed divider subassembly, fall into its top with the rock ore fragments after placing through the material subassembly, utilize the flexible ascending effect in top of material subassembly, the rock ore fragments that do not belong to same class after the analysis test are upwards ejecting for accomplish the effect of separation, remove the rock ore fragments to the feed divider subassembly through the flexible effect that descends in top of material subassembly, be used for the spacing effect before the rock ore fragment analysis test, the test module is rotatory to different angles for a plurality of groups of rock ore fragments in the feed divider subassembly are tested transparency and hardness, have improved the rock ore fragment batch test classification's after taking a sample efficiency.

2. Through first motor rotation, make the expansion ring rotate at the inner wall of installation barrel for remove one side to the guide way with first electric putter, and utilize the output of first electric putter to extend to in the guide way, push into the collection barrel with the rock ore fragment of same type after the analysis test, be used for the concentrated of the rock ore fragment of same type after the analysis test to accomodate, improved the efficiency of accomodating.

3. The linkage plate is pushed by the second electric push rod, so that rock and mineral fragments placed on the linkage plate move upwards to the throwing hole and are used for ejecting rock and mineral fragments of different types, the fetching efficiency of the rock and mineral fragments is improved, and the efficiency of batch testing of the rock and mineral fragments is improved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the structure of an analytical test device according to an embodiment of the present invention;

FIG. 2 shows a schematic structural view of a dispensing assembly according to an embodiment of the present invention;

FIG. 3 shows a schematic structural view of a material carrying cylinder according to an embodiment of the present invention;

FIG. 4 shows a schematic structural view of a loading assembly according to an embodiment of the present invention;

FIG. 5 shows a schematic structural diagram of a test assembly according to an embodiment of the present invention;

fig. 6 shows a schematic structural diagram of a linkage mechanism according to an embodiment of the present invention.

In the figure: 1. a material distribution component; 11. installing a cylinder; 12. a movable ring; 13. a limiting ring; 14. a material carrying cylinder; 15. a first helical gear; 16. a gear bracket; 17. a second helical gear; 18. a first motor; 19. a first electric push rod; 110. a photosensitive receiving probe; 111. a guide groove; 2. a cover plate; 3. a loading assembly; 31. a support ring; 32. a storage cylinder; 33. internal thread teeth; 34. a storage plate; 35. a second electric push rod; 36. a linkage plate; 4. a testing component; 41. a mounting shell; 42. a second motor; 43. a third electric push rod; 44. a linkage mechanism; 441. a linkage plate; 442. a mounting groove; 443. a fourth electric push rod; 444. marking a sharp; 445. a strong light source; 446. high definition camera; 5. and a delivery hole.

Description of the embodiments

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention provides an analysis and test device for rock salt geological exploration, which comprises a distributing component 1, a carrying component 3 and a test component 4; as illustrated by way of example in fig. 1.

The top fixedly connected with apron 2 of dividing subassembly 1, a plurality of groups of holes 5 of putting in have been seted up to the surface of apron 2, and a plurality of groups put in the hole 5 and be annular array setting as the center with the axis of apron 2, the inner wall of the bottom fixedly connected with dividing subassembly 1 of carrying material subassembly 3, carry the top of material subassembly 3 to run through put in the hole 5 and extend to the top of

apron

2, 4 fixed connection of test assembly are on the top of apron 2, just the one end sliding connection of test assembly 4 is at the inner wall of dividing subassembly 1.

Further, the inner wall of the material distributing component 1 is fixedly connected with a controller.

Specifically, the putting hole 5 is communicated with the inner wall of the distributing component 1, so that a tester places a plurality of groups of rock and mineral fragments after sampling in the distributing component 1, the placed rock and mineral fragments fall into the top end of the distributing component through the loading component 3, and the rock and mineral fragments which do not belong to the same class after analysis and test are ejected upwards by utilizing the action of telescopic lifting of the top end of the loading component 3 so as to finish the separation;

the top of the material carrying assembly 3 stretches out and descends, rock and mineral fragments are moved into the material distributing assembly 1 and used for limiting before analysis and testing of the rock and mineral fragments, and the testing assembly 4 rotates to different angles and is used for testing the transparency and the hardness of a plurality of groups of rock and mineral fragments in the material distributing assembly 1.

The material distributing assembly 1 comprises a mounting cylinder 11; as illustrated by way of example in fig. 2 and 3.

The inner wall movable joint of installation barrel 11 is connected with loose collar 12, just the inner wall of loose collar 12 is provided with spacing ring 13, the axis coincidence of installation barrel 11, loose collar 12 and spacing ring 13, the top fixedly connected with of spacing ring 13 carries material barrel 14 of a plurality of groups, and a plurality of groups carry material barrel 14 and use the axis of spacing ring 13 as the center and be the annular array setting, two sets of carry material barrel 14 is provided with first helical gear 15 between adjacent lateral wall, two sets of the bottom of first helical gear 15 all with the top fixed connection of spacing ring 13, and two sets of first helical gear 15 use the axis of spacing ring 13 to set up as central symmetry, the inner wall of loose collar 12 just is close to one side fixedly connected with two sets of gear support 16 of first helical gear 15, two sets of all rotation connection have second helical gear 17 on the gear support 16, just second helical gear 17 all with first helical gear 15 meshing connection, two sets of top all fixedly connected with first motor 18, just the output of first motor 18 all with first helical gear 17 and first helical gear support 16, the first helical gear 19 sets of electric drive guide grooves and two sets of guide grooves 110 are equipped with on the first helical gear 19 and the first lateral wall of guide grooves 110, the two sets of guide grooves are opened to carry the first lateral surface of guide grooves 111 each other.

Further, the first motor 18 and the first electric push rod 19 are electrically connected to the controller.

Specifically, the carrying cylinder 14 is used for limiting rock and mineral fragments waiting for analysis and test, and two groups of guide grooves 111 formed on the surface of the carrying cylinder 14 are utilized to form test through holes, so that the first electric push rod 19 and the photosensitive receiving probe 110 respectively move to one end of the guide groove 111 for matching the action of placing the rock and mineral fragments in the carrying cylinder 14;

the rotation of the first motor 18 causes the second bevel gear 17 to be meshed with the first bevel gear 15, so that the movable ring 12 is movably attached to the inner wall of the installation cylinder 11, and the movable ring is used for adjusting the position relation between the first electric push rod 19 and the guide groove 111, and between the photosensitive receiving probe 110 and the guide groove 111;

when the first electric push rod 19 moves to one end close to the guide groove 111, the output end of the first electric push rod 19 is used for extending into the guide groove 111 to push the rock and mineral fragments placed in the material carrying cylinder 14 to drop into the material carrying assembly 3, so that the storage effect of the rock and mineral fragments of the same type is completed;

when the photosensitive receiving probe 110 moves to the end close to the guide groove 111, the function of detecting the transparency of the rock fragments placed in the material carrying cylinder 14 is to make the photosensitive receiving probe 110 detect the intensity of the strong light source irradiating through the rock fragments.

The material carrying assembly 3 comprises a supporting ring 31; as illustrated by way of example in fig. 4.

The outer wall fixed connection of supporting ring 31 is at the inner wall of installation barrel 11, just supporting ring 31 is located the bottom of expansion ring 12, the top fixedly connected with of supporting ring 31 accomodates barrel 32, the inner wall of supporting ring 31 is provided with internal thread tooth 33, just threaded connection has storage plate 34 on the internal thread tooth 33, the top fixedly connected with of supporting ring 31 a plurality of groups second electric putter 35, and a plurality of groups second electric putter 35 is annular array setting with the axis of supporting ring 31 as the center, a plurality of groups the top of second electric putter 35 all with the bottom fixed connection of spacing ring 13, a plurality of groups the output of second electric putter 35 all runs through spacing ring 13, and extends to and carry material barrel 14 and put in downthehole 5, the output transmission of second electric putter 35 is connected with linkage plate 36, just linkage plate 36 swing joint is in the inner wall that carries material barrel 14.

Further, the second electric push rod 35 is electrically connected to the controller.

Specifically, the second electric push rod 35 drives the linkage plate 36 to be slidably connected to the inner wall of the material carrying cylinder 14, so as to adjust the height of rock and mineral broken stone in the material carrying cylinder 14;

the linkage plate 36 moves to the bottom end of the guide groove 111, so that the rock and mineral rubble moves from the guide groove 111 into the storage cylinder 32.

The test assembly 4 includes a mounting housing 41 and a linkage mechanism 44; as illustrated by way of example in fig. 5.

The installation casing 41 is cylindrical structure, just the bottom fixed connection of installation casing 41 is in the top axis center department of apron 2, the inner wall top fixedly connected with second motor 42 of installation casing 41, the output transmission of second motor 42 is connected with third electric putter 43, the output of third electric putter 43 runs through installation casing 41, and extends to the bottom and the link gear 44 transmission of installation casing 41 and be connected, link gear 44 sliding connection is at the inner wall of spacing ring 13.

The linkage mechanism 44 includes a linkage plate 441; as illustrated by way of example in fig. 6.

The central axis department of linkage plate 441 is connected with the output transmission of third electric putter 43, just the outer wall slip laminating of linkage plate 441 is connected at the inner wall of spacing ring 13, mounting groove 442 has been seted up on the surface of linkage plate 441, just the inner wall one end fixedly connected with fourth electric putter 443 of mounting groove 442, the output transmission of fourth electric putter 443 is connected with mark sharp 444, mark sharp 444 extends to in the guide way 111 and mutually support and use, outer wall one side fixedly connected with strong light source 445 of output is kept away from to fourth electric putter 443, high definition digtal 446 is installed in the top embedding of linkage plate 441, just the bottom embedding of linkage plate 441 is installed ultraviolet light source, high definition digtal 446 is the symmetry setting with ultraviolet light source, just high definition digtal 446 and ultraviolet light source all are located one side of strong light source 445.

Further, the second motor 42, the third electric putter 43, the fourth electric putter 443, the strong light source 445, the ultraviolet light source, and the high-definition camera 446 are all electrically connected to the controller.

Specifically, the second motor 42 is used in combination with the third electric push rod 43 to drive the linkage plate 441 to rotate and lift, so that the linkage plate 441 rotates to different positions of the plurality of groups of material carrying cylinders 14, and cooperates with rock ore and broken stone placed in the material carrying cylinders 14;

when the marking sharp 444 moves to one side of the group of material carrying cylinders 14, the output end of the fourth electric push rod 443 is utilized to drive the marking sharp 444 and the surface of the rock and mineral crushed stone to scratch, the strong light source 445 irradiates a light source on the surface of the rock and mineral crushed stone, and the photosensitive receiving probe 110 is utilized to detect the effect of penetrating the rock and mineral crushed stone into strong light transmittance;

after the fourth electric push rod 443 drives the marking sharp 444 to finish storage, the second motor 42 drives the linkage plate 441 to rotate, so that the high-definition camera 446 moves to one side of the scratched rock-mine crushed stone carrying cylinder 14, the surface of the scratched rock-mine crushed stone is irradiated by an ultraviolet light source, whether the rock-mine crushed stone contains fluorescence is detected, and whether the rock-mine crushed stone has fluorescence and the scratched trace is synchronously shot by the high-definition camera 446 and transmitted to the controller.

The working principle of the analysis and test device for rock salt geological exploration provided by the embodiment of the invention is as follows:

a plurality of groups of rock ore fragments are put into the material carrying cylinder 14 through the putting hole 5, and the linkage plate 36 is driven by the second electric push rod 35 to be connected to the inner wall of the material carrying cylinder 14 in a sliding way, so that the height of the rock ore fragments in the material carrying cylinder 14 is adjusted, and the rock ore fragments are moved to a position close to the guide groove 111;

through the cooperation of the second motor 42 and the third electric push rod 43, the linkage plate 441 is driven to rotate and lift, so that the linkage plate 441 rotates to different positions of a plurality of groups of material carrying cylinders 14 and cooperates with rock and mineral broken stones placed in the material carrying cylinders 14;

after the fourth electric push rod 443 drives the marking sharp 444 to finish storage, the second motor 42 drives the linkage plate 441 to rotate, so that the high-definition camera 446 moves to one side of the scratched rock-mine crushed stone carrying cylinder 14, the surface of the scratched rock-mine crushed stone is irradiated by an ultraviolet light source, whether the rock-mine crushed stone contains fluorescence is detected, and the conditions of whether the rock-mine crushed stone has fluorescence and the scratched trace are synchronously shot by the high-definition camera 446 and transmitted to the controller;

after the data after analysis and test are recorded by the controller, and after the marking sharp 444 moves to the next material carrying cylinder 14, the controller controls the first motor 18 to rotate, so that the movable ring 12 rotates on the inner wall of the mounting cylinder 11, the movable ring is used for moving the first electric push rod 19 to one side of the guide groove 111, and the output end of the first electric push rod 19 extends into the guide groove 111 to push rock and mineral fragments of the same type after analysis and test into the receiving cylinder 32 for centralized receiving of the rock and mineral fragments of the same type after analysis and test;

after the marking sharp 444 rotates to each group of material carrying cylinders 14, the linkage plate 36 is pushed by the second electric push rod 35, so that rock and mineral fragments placed on the linkage plate 36 move upwards to the position of the throwing hole 5 for ejecting rock and mineral fragments of different types.

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. An analysis testing arrangement for rock salt geological prospecting, its characterized in that: comprises a distributing component (1), a carrying component (3) and a testing component (4);

the top of the material distribution assembly (1) is fixedly connected with a cover plate (2), a plurality of groups of throwing holes (5) are formed in the surface of the cover plate (2), the throwing holes (5) are arranged in an annular array with the central axis of the cover plate (2) as the center, the bottom of the material carrying assembly (3) is fixedly connected with the inner wall of the material distribution assembly (1), the top of the material carrying assembly (3) penetrates through the throwing holes (5) and extends to the top of the cover plate (2), the test assembly (4) is fixedly connected to the top of the cover plate (2), and one end of the test assembly (4) is slidably connected to the inner wall of the material distribution assembly (1);

the material distribution assembly (1) comprises a mounting cylinder (11); the inner wall movable joint of installation barrel (11) is connected with expansion ring (12), just the inner wall of expansion ring (12) is provided with spacing ring (13), the top fixedly connected with of spacing ring (13) carries material barrel (14) of a plurality of groups, two sets of it carries and is provided with first helical gear (15) between a adjacent lateral wall of material barrel (14), two sets of the bottom of first helical gear (15) all with the top fixed connection of spacing ring (13), the inner wall of expansion ring (12) just is close to one side fixedly connected with two sets of helical gear (16) of first helical gear (15), two sets of all rotate on the helical gear (16) and be connected with second helical gear (17), just second helical gear (17) all with first helical gear (15) meshing connection, two sets of the top of helical gear (16) all fixedly connected with first motor (18), just the output of first motor (18) all is connected with second helical gear (17) transmission.

2. The analytical test device for rock salt geological exploration according to claim 1, wherein: the inner wall fixedly connected with of expansion ring (12) is a plurality of first electric putter (19) of group and photosensitive receiving probe (110), just photosensitive receiving probe (110) level sets up in one side of first electric putter (19), and a plurality of groups two sets of guide way (111) have been seted up on the surface of carrying material barrel (14), two sets of guide way (111) all communicate each other and the cooperation is used with the output of first electric putter (19).

3. The analytical test device for rock salt geological exploration according to claim 1, wherein: the material carrying assembly (3) comprises a supporting ring (31);

the outer wall fixed connection of support ring (31) is at the inner wall of installation barrel (11), just support ring (31) are located the bottom of expansion ring (12), the top fixedly connected with of support ring (31) accomodates barrel (32), the inner wall of support ring (31) is provided with internal thread tooth (33), just threaded connection has on internal thread tooth (33) accomodate board (34).

4. An analytical test device for rock salt geological exploration according to claim 3, wherein: the top fixedly connected with of supporting ring (31) is a plurality of groups of second electric putter (35), and a plurality of groups second electric putter (35) are annular array setting as the center with the axis of supporting ring (31), a plurality of groups the top of second electric putter (35) all with the bottom fixed connection of spacing ring (13).

5. The analytical test device for rock salt geological exploration according to claim 4, wherein: the output ends of the second electric push rods (35) in a plurality of groups penetrate through the limiting rings (13) and extend into the material carrying cylinder (14) and the throwing holes (5).

6. The analytical test device for rock salt geological exploration according to claim 5, wherein: the output end of the second electric push rod (35) is in transmission connection with a linkage plate (36), and the linkage plate (36) is movably attached to the inner wall of the material carrying cylinder body (14).

7. The analytical test device for rock salt geological exploration according to claim 1, wherein: the test assembly (4) comprises a mounting shell (41) and a linkage mechanism (44);

the installation casing (41) is cylindrical structure, just the bottom fixed connection of installation casing (41) is in the top axis center department of apron (2), the inner wall top fixedly connected with second motor (42) of installation casing (41), the output transmission of second motor (42) is connected with third electric putter (43), the output of third electric putter (43) runs through installation casing (41), and extends to the bottom and the link gear (44) transmission of installation casing (41) and be connected, link gear (44) sliding connection is at the inner wall of spacing ring (13).

8. The analytical test device for rock salt geological exploration according to claim 7, wherein: the linkage mechanism (44) comprises a linkage plate (441);

the central axis center of the linkage plate (441) is in transmission connection with the output end of the third electric push rod (43), the outer wall of the linkage plate (441) is in sliding fit connection with the inner wall of the limiting ring (13), the surface of the linkage plate (441) is provided with a mounting groove (442), and one end of the inner wall of the mounting groove (442) is fixedly connected with a fourth electric push rod (443).

9. The analytical test device for rock salt geological exploration of claim 8, wherein: the output end transmission of fourth electric putter (443) is connected with mark sharp (444), mark sharp (444) extend to in guide way (111) and mutually support and use, outer wall one side fixedly connected with highlight source (445) of output are kept away from to fourth electric putter (443).

10. The analytical test device for rock salt geological exploration according to claim 9, wherein: high definition digtal camera (446) are installed in the top embedding of linkage board (441), just ultraviolet light source is installed in the bottom embedding of linkage board (441), high definition digtal camera (446) are the symmetry setting with ultraviolet light source, just high definition digtal camera (446) and ultraviolet light source all are located one side of strong light source (445).