CN115532593B - Geological survey solid sample storage box device - Google Patents

Abstract

The invention discloses a geological survey solid sample storage box device which comprises a storage box and a cover plate which can be installed above the storage box in a turnover mode, wherein a placement frame for placing solid samples is installed inside the storage box in a sliding mode, filtering holes which are uniformly distributed and penetrate through the placement frame are formed in the bottom end of the placement frame, a driving assembly for driving the placement frame to slide is arranged inside the storage box, a rotating rod is installed inside the storage box in a rotating mode, two turnover plates which are symmetrically distributed are fixedly connected with a rod body of the rotating rod, and a knocking assembly is arranged between the two turnover plates. According to the invention, dust and impurity cleaning operation can be carried out on the solid sample placed in the placing frame through the reciprocating motion of the placing frame, the knocking of the hammer on the geological investigation solid sample and the reciprocating motion and autorotation motion mode of the dust removing roller, so that the cleaning efficiency is improved, and meanwhile, the operation time consumed by the traditional manual rock knocking can be reduced.

Description

Geological survey solid sample storage box device

Technical Field

The invention relates to the technical field of geological sample storage, in particular to a geological investigation solid sample storage box device.

Background

Geological exploration is understood as geological work in a broad sense, and is investigation and research work for geological conditions such as rock, stratum structure, mineral products, groundwater, landforms and the like in a certain area by applying geological exploration methods such as mapping, geophysical exploration, geochemical prospecting, drilling, pothole exploration, sampling test, geological remote sensing and the like according to requirements of economic construction, national defense construction and scientific and technical development. Geological surveys also include regional geological surveys, marine geological surveys, geothermal surveys and geothermal field surveys, seismic geological surveys, environmental geological surveys, and the like of various scales.

Chinese patent publication No. CN114803098A discloses a solid sample storage device for geological survey convenient to store, belongs to geological survey technical field, and this patent technology makes through drive axis of rotation reciprocating rotation, and the axis of rotation makes through adapter sleeve and connecting rod strike the hammer and go up and down the swing, strikes the hammer and strikes the rock after fixed, and the rock of being beaten, the dust and the impurity on its surface drop at the upper surface of screening board, thereby conveniently realized the clearance of rock surface dust and impurity, and then improved the convenience of clearance rock surface dust and impurity effectively, simultaneously, reduced the operation time that traditional manual work was beaten rock and was consumed.

However, this patent technique is difficult to solve dust and impurity above the rock after striking the rock to the mode of relying on the striking alone to realize the clearance to rock surface dust and impurity exists the condition that clearance efficiency is low, probably because impurity adhesion is too firm and can't drop on the rock surface, consequently, need design a geological survey solid sample storage box device to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide a geological survey solid sample storage box device which has the advantage of cleaning dust and impurities on the surface of a rock, and solves the problem of low cleaning efficiency of the impurities and the dust on the surface of the rock.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a geological survey solid sample storage box device, includes storage box and can overturn and install the apron in storage box top, the inside slidable mounting of storage box has the frame of placing solid sample, and places the bottom of frame and be equipped with and be evenly distributed and run through the filtration hole of placing the frame, the inside of storage box is equipped with the drive assembly who drives to place the frame slip;

a rotating rod is rotatably arranged in the storage box, a rod body of the rotating rod is fixedly connected with two symmetrically distributed turnover plates, and a knocking assembly is arranged between the two turnover plates;

the storage box is characterized in that driven toothed plates which are symmetrically distributed are slidably mounted between the inner walls of the two sides of the storage box, a transmission assembly is arranged between the overturning plate and the driven toothed plates, a dust removing roller used for cleaning a solid sample stored in the storage box is mounted between the driven toothed plates, and dust removing brushes are uniformly mounted on the surfaces of the dust removing roller.

Further, support plates which are symmetrically distributed are fixedly connected between the inner walls of the two sides of the storage box, and the placement frame is slidably installed above the two support plates.

Further, the drive assembly includes fixed mounting in the mount pad of the positive inner wall of storage box and fixed mounting in the bottom plate of backup pad bottom, just biax motor is installed on the top of mount pad, the equal fixedly connected with carousel of both ends output shaft of biax motor, the quotation lateral wall of carousel is close to being connected with the articulated lever between edge position department and the bottom plate.

Further, a traction rope is connected between the top end of the turnover plate and one side of the placement frame close to the front face of the storage box, the traction rope bypasses the rotating rod, and a wiring groove matched with the traction rope is formed in the surface of the rotating rod.

Further, strike the subassembly including fixed mounting in two the installation pole that the upset board is close to one side each other, and two fixedly connected with is used for striking the solid sample of placing the frame inside between the one end that the installation pole is close to each other.

Further, the transmission assembly comprises a connecting rod fixedly installed on one side of the two overturning plates far away from each other and a transmission fluted disc II which is rotatably installed on the inner walls of two sides of the storage box, the transmission fluted disc II is meshed with the driven toothed plate, one side, close to the inside of the storage box, of the transmission fluted disc II is fixedly installed with a transmission fluted disc I, one end, away from the overturning plates, of the connecting rod is fixedly connected with a driving toothed plate meshed with the transmission fluted disc I, two sleeves which are symmetrically distributed are fixedly connected on the inner walls, close to the front, of the storage box, and the end parts of the driving toothed plates extend to the inside of the sleeves and slide.

Further, two damping sliding grooves are formed in one sides, close to each other, of the driven toothed plates, the damping sliding grooves are formed in the length direction of the driven toothed plates, damping sliding blocks which rotate with the dust removing rollers are arranged at two ends of the dust removing rollers, and the damping sliding blocks are slidably mounted in the damping sliding grooves.

Further, the rotation shafts at the two ends of the dust removal roller are fixedly sleeved with a transmission fluted disc III, and the inner walls at the two sides of the storage box are fixedly connected with fixed toothed plates for driving the transmission fluted disc III to rotate.

Further, one side of the driven toothed plate, which is far away from the dust removal roller, is fixedly connected with a limiting plate, and limiting grooves for sliding of the limiting plate are formed in the inner walls of the two sides of the storage box.

Further, a notch communicated with the inside of the storage box is formed in the position, close to the lower side, of the front face of the storage box, and a dust collection drawer is slidably mounted in the notch.

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

1. according to the invention, the turntable is driven to rotate by the double-shaft motor, so that the bottom plate and the placing frame can be driven to do reciprocating motion in the horizontal direction by the cooperation of the turntable and the hinging rod, so that the geological investigation solid sample placed in the placing frame oscillates, and part of dust and impurities adhered on the surface of the solid sample can enter the dust collecting drawer through the filtering holes in the placing frame to be collected.

2. Through the removal of placing the frame can drive haulage rope pulling turnover plate, dwang, installation pole and the whole rotation of drive hammer, when placing the reverse motion of frame, through the reverse upset of drive hammer, installation pole and the holistic weight of turnover plate, hit the geological survey solid sample that is located the frame inside for the dust and the impurity on sample surface drop comparatively thoroughly, improve the device to the cleaning efficiency of solid sample surface dust and impurity.

3. Through the motion of upset board, can drive connecting rod and drive pinion rack in step, the transmission cooperation of rethread drive assembly can make the dust removal roller keep self pivoted mode of motion when reciprocating motion in the horizontal direction to can remove dust and clean to the surface and the top of geological survey solid sample through the dust removal brush on the dust removal roller, further improve the cleaning efficiency to solid sample surface dust and impurity, reduced traditional manual work and hit the rock and consumed the operating time.

In summary, the device can be through placing the reciprocating motion of frame, the hammer to the striking of geological survey solid sample and the reciprocating motion and the rotation's of dust removal roller motion mode to being located the solid sample of placing the frame inside and carry out dust and impurity clearance operation, improve cleaning efficiency, also can reduce the traditional manual work simultaneously and strike the rock and consume the operating time.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a geological survey solid sample storage cartridge device of the present invention;

FIG. 2 is a schematic top view of a geological survey solid sample storage cartridge device of the present invention with a cover plate removed;

FIG. 3 is a first side cross-sectional view of a geological survey solid sample cartridge device of the present invention with a cover plate removed;

FIG. 4 is a second side cross-sectional view of a geological survey solid sample cartridge device of the present invention with a cover plate removed;

FIG. 5 is an enlarged schematic view of the structure of the solid sample storage cartridge device for geological survey of FIG. 4A according to the present invention;

FIG. 6 is a first front cross-sectional view of a geological survey solid sample cartridge device of the present invention with a cover plate removed;

FIG. 7 is an enlarged schematic view of the structure of the solid sample storage cartridge device for geological survey of FIG. 6B according to the present invention;

FIG. 8 is a second front cross-sectional view of a geological survey solid sample cartridge device of the present invention with a cover plate removed;

FIG. 9 is an enlarged schematic view of the structure of the solid sample storage cartridge device for geological survey of FIG. 8 according to the present invention;

fig. 10 is a schematic diagram of a transmission structure of a geological survey solid sample storage box device according to the present invention.

In the figure: 1. a storage box; 2. a cover plate; 3. a dust collection drawer; 4. a rotating lever; 5. a turnover plate; 6. a traction rope; 7. a mounting rod; 8. a hammer; 9. driving the toothed plate; 10. a driven toothed plate; 11. fixing the toothed plate; 12. a connecting rod; 13. a sleeve; 14. a transmission fluted disc I; 15. a transmission fluted disc II; 16. a transmission fluted disc III; 17. placing a frame; 18. a dust removal roller; 19. a limit groove; 20. a turntable; 21. a hinge rod; 22. a bottom plate; 23. a support plate; 24. a limiting plate; 25. wiring grooves; 26. a mounting base; 27. a biaxial motor; 28. damping sliding grooves; 29. damping slider.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. 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.

Example 1

Referring to fig. 1, 3 and 6, the present invention provides a technical solution: the utility model provides a geological survey solid sample storage box device, including storage box 1 and can overturn and install in the apron 2 of storage box 1 top, storage box 1's inside slidable mounting has the frame 17 of placing solid sample, fixedly connected with is symmetric distribution's backup pad 23 between the both sides inner wall of storage box 1, and place frame 17 slidable mounting in the top of two backup pads 23, backup pad 23 is to placing frame 17 and is carried out steady rest, guarantee simultaneously to place frame 17 along the gliding stability of horizontal direction, and the bottom of placing frame 17 is equipped with and is evenly distributed and runs through the filtration pore of placing frame 17, storage box 1's inside is equipped with the drive assembly who drives to place frame 17 gliding, drive assembly includes mount pad 26 and fixed mounting in the bottom plate 22 of backup pad 23 bottom in the positive inner wall of storage box 1, and the top of mount pad 26 is installed biax motor 27, the equal fixedly connected with carousel 20 of both ends output shaft of biax motor 27, the quotation lateral wall of carousel 20 is close to edge and is connected with articulated pole 21 between bottom plate 22.

The front of the storage box 1 is provided with a notch communicated with the inside of the storage box 1 at a position close to the lower part, and the notch is provided with a dust collection drawer 3 in a sliding manner.

The concrete implementation mode of the geological survey solid sample storage box device is as follows:

in order to solve the problem of time waste caused by manual cleaning of dust and impurities on the rock surface, the storage box 1 is in a reciprocating state by starting the double-shaft motor 27, and as shown in fig. 3, when the turntable 20 drives the hinge point of the hinge rod 21 and the turntable 20 to rotate towards the position close to the bottom plate 22, the hinge rod 21 pushes the bottom plate 22 to drive the storage box 17 to move towards the back of the storage box 1, when the hinge point of the hinge rod 21 and the turntable 20 is driven by the turntable 20 to rotate towards the position far away from the bottom plate 22, the hinge rod 21 pulls the bottom plate 22, so that the bottom plate 22 drives the storage box 17 to move towards the front of the storage box 1, and the storage box 1 is in a reciprocating state, so that the solid sample placed inside the storage box 17 is in a moving state, and dust or impurities on the surface of the solid sample can fall off conveniently and fall into the dust collection drawer 3 through the filter holes.

Example two

In this embodiment, on the basis of the first embodiment, the solid sample inside the placement frame 17 is knocked to accelerate the falling of dust and impurities on the surface of the solid sample, and referring to fig. 2 to 7 and 10, the specific structure includes: the inside rotation of storage box 1 installs dwang 4, and the body of rod fixedly connected with of dwang 4 is symmetrical distribution's upset board 5, be connected with haulage rope 6 between the top of upset board 5 and the positive one side of placing frame 17 and being close to storage box 1, haulage rope 6 bypasses dwang 4, and the wiring groove 25 that matches with haulage rope 6 has been seted up on the surface of dwang 4, wiring groove 25 is smooth curved surface setting, avoid haulage rope 6 excessive wear to cause the fracture phenomenon, be provided with between two upset boards 5 and strike the subassembly, strike the subassembly and include fixed mounting in the installation pole 7 that two upset boards 5 are close to one side each other, and fixedly connected with is used for beating the hammer 8 of beating to placing the solid sample that frame 17 inside placed between the one end that two installation poles 7 are close to each other.

The concrete mode of this embodiment for accelerating the falling of dust and impurities on the surface of the sample by knocking the solid sample placed inside the placement frame 17 is as follows:

when the placing frame 17 moves towards the back of the storage box 1 as in embodiment one, the placing frame 17 pulls the turnover plate 5 to rotate through the traction rope 6, the turnover plate 5 drives the rotation rod 4 to rotate, meanwhile, the turnover plate 5 pulls up the hammer 8 through the mounting rod 7, when the placing frame 17 moves towards the front of the storage box 1 as in embodiment one, the placing frame 17 loses the pulling force on the traction rope 6, the whole gravity of the turnover plate 5, the mounting rod 7 and the whole hammer 8 can enable the turnover plate 5 to integrally drive the rotation rod 4 to reversely rotate, the solid sample inside the placing frame 17 is knocked through the hammer 8, the falling of dust and impurities on the surface of the solid sample is accelerated, and the cleaning efficiency of dust and impurities on the surface of the solid sample is improved.

Example III

The embodiment is to add an operation of cleaning dust and impurities on the surface of a solid sample on the basis of the first embodiment and the second embodiment, improve the shedding efficiency of the dust and the impurities on the surface of the solid sample, and refer to fig. 2-4 and fig. 6-10, and specifically comprises the following steps: the driven toothed plate 10 which is symmetrically distributed is slidably mounted between the inner walls of the two sides of the storage box 1, one side, away from the dust removal roller 18, of the driven toothed plate 10 is fixedly connected with a limiting plate 24, limiting grooves 19 for the sliding of the limiting plate 24 are formed in the inner walls of the two sides of the storage box 1, and the sliding stability of the driven toothed plate 10 in the storage box 1 can be guaranteed through the sliding of the limiting plate 24 in the limiting grooves 19.

The device comprises a storage box 1, a storage box 12, a storage box 10, a storage box 1, a storage rack 9, a connecting rod 12, a driven toothed plate 10, a dust removal roller 18, a dust removal brush, a driving toothed plate III 16, a sleeve 13 which is symmetrically distributed, a dust removal brush and a fixing toothed plate 11, wherein the driving assembly is arranged between the turnover plate 5 and the driven toothed plate 10, the driving assembly comprises a connecting rod 12 fixedly arranged on one side of the two turnover plates 5, which are far away from each other, and a driving toothed plate II 15 which is rotatably arranged on the inner walls of the two sides of the storage box 1, the driving toothed plate II is meshed with the driven toothed plate 10, the driving toothed plate III 16 is fixedly sleeved on the rotating shafts of the two ends of the dust removal roller 18, the driving toothed plate III 16 is fixedly connected with the inner walls of the two sides of the storage box 1, and the fixing toothed plate 11 which drives the driving toothed plate III 16 to rotate is fixedly arranged on the inner walls of the two sides of the storage box 1.

The specific implementation mode of the cleaning method for dust and impurities on the surface of a solid sample is as follows:

when the turnover plate 5 reciprocates along with the reciprocating motion of the placement frame 17, the turnover plate 5 can synchronously drive the connecting rod 12 and the driving toothed plate 9 to move, the driving toothed plate 9 drives the first driving toothed plate 14 to rotate, the first driving toothed plate 14 drives the second driving toothed plate 15 to rotate, the second driving toothed plate 15 drives the driven toothed plate 10 to reciprocate in the horizontal direction, meanwhile, the driven toothed plate 10 can drive the dedusting roller 18 to reciprocate, and the third driving toothed plate 16 at the end part of the dedusting roller 18 is matched with the fixed toothed plate 11 while the dedusting roller 18 reciprocates in the horizontal direction, so that the third driving toothed plate 16 can rotate, and meanwhile, the third driving toothed plate 16 drives the dedusting roller 18 to rotate, thereby cleaning dust and impurities on the surface of a solid sample through a dedusting brush on the dedusting roller 18 and improving the shedding efficiency of dust and impurities on the surface of the solid sample.

Example IV

The third embodiment is an operation of adding an adjustment to the lateral movement range of the dust removing roller 18 according to the actual use requirement, and referring to fig. 8 and 9, the specific structure includes: a damping chute 28 is formed on one side of the two driven toothed plates 10, which is close to each other, along the length direction of the damping chute, damping sliding blocks 29 which rotate with the dust removal roller 18 are mounted on two ends of the dust removal roller 18, and the damping sliding blocks 29 are slidably mounted in the damping chute 28.

The specific implementation of this embodiment in adjusting the range of lateral movement of the dust removal roller 18 is as follows:

the position of the damping slide block 29 in the damping slide groove 28 can be adjusted to drive the position of the dust removing roller 18, so that the transverse moving range of the dust removing roller 18 is adjusted compared with that of the placing frame 17 and solid samples stored in the placing frame 17, and the dust removing roller is suitable for cleaning the surfaces of solid samples with different sizes.

Working principle: this kind of geological survey solid sample storage box device, firstly place the solid sample in the inside frame 17 of placing of storage box 1 during the use, then start biax motor 27, biax motor 27 drives carousel 20 rotation, as shown in fig. 3, when carousel 20 drive hinge lever 21 and carousel 20's pin joint orientation is close to bottom plate 22 department and rotates, hinge lever 21 then can promote bottom plate 22 and drive the back removal of placing frame 17 towards storage box 1, when carousel 20 drive hinge lever 21 and carousel 20's pin joint orientation is kept away from bottom plate 22 department and is rotated, hinge lever 21 then can pull bottom plate 22, make bottom plate 22 drive place frame 17 and remove towards the front of storage box 1, from this can make storage box 1 be in reciprocating motion's state, thereby make the solid sample of placing frame 17 inside be in motion state, thereby make things convenient for dust or impurity on solid sample surface to drop.

Placing frame 17 to the storage box 1 back removal, place frame 17 and can rotate through haulage rope 6 pulling turnover plate 5, turnover plate 5 drives dwang 4 and rotates, turnover plate 5 pulls up hammer 8 through installation pole 7 simultaneously, when placing frame 17 to the positive removal of storage box 1, when placing frame 17 and losing the pulling force to haulage rope 6 this moment, then turnover plate 5, installation pole 7 and the holistic self gravity of hammer 8 can make its holistic drive dwang 4 reverse rotation, strike placing frame 17 inside solid sample through hammer 8, accelerate the drop of dust and impurity on solid sample surface, improve solid sample surface dust and impurity's cleaning efficiency.

Simultaneously, the turnover plate 5 can synchronously drive the connecting rod 12 and the driving toothed plate 9 to move, the driving toothed plate 9 drives the first driving toothed disc 14 to rotate, the first driving toothed disc 14 drives the second driving toothed disc 15 to rotate, the second driving toothed disc 15 drives the driven toothed plate 10 to reciprocate in the horizontal direction, meanwhile, the driven toothed plate 10 can drive the dust removing roller 18 to reciprocate, and the third driving toothed disc 16 at the end part of the dust removing roller 18 is matched with the fixed toothed plate 11 when the dust removing roller 18 reciprocates in the horizontal direction, so that the third driving toothed disc 16 can rotate, and meanwhile, the third driving toothed disc 16 drives the dust removing roller 18 to rotate, so that dust and impurities on the surface of a solid sample can be cleaned through a dust removing brush on the dust removing roller 18, and the shedding efficiency of dust and impurities on the surface of the solid sample is improved.

The dust and the impurity after falling enter into the inside collection of album dirt drawer 3 through the filtration pore that sets up on placing frame 17 can, when need adjust the scope of dust removal roller 18 lateral movement, can realize the adjustment to dust removal roller 18 position through the adjustment of damping slider 29 in the inside position of damping spout 28 to can realize the adjustment to dust removal roller 18 lateral movement scope according to the in-service use demand.

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

Claims (4)

1. The utility model provides a geological survey solid sample storage box device, includes storage box (1) and can overturn and install apron (2) in storage box (1) top, its characterized in that: a placing frame (17) for placing solid samples is arranged in the storage box (1) in a sliding manner, filtering holes which are uniformly distributed and penetrate through the placing frame (17) are formed in the bottom end of the placing frame (17), and a driving assembly for driving the placing frame (17) to slide is arranged in the storage box (1);

a rotating rod (4) is rotatably arranged in the storage box (1), a rod body of the rotating rod (4) is fixedly connected with two symmetrically distributed turnover plates (5), and a knocking assembly is arranged between the two turnover plates (5);

driven toothed plates (10) which are symmetrically distributed are slidably arranged between the inner walls of the two sides of the storage box (1), and a transmission assembly is arranged between the turnover plate (5) and the driven toothed plates (10);

a dust removing roller (18) for cleaning the solid sample stored in the placing frame (17) is arranged between the two driven toothed plates (10), and dust removing brushes are uniformly arranged on the surfaces of the dust removing rollers (18);

support plates (23) which are symmetrically distributed are fixedly connected between the inner walls of the two sides of the storage box (1), and the placement frame (17) is slidably arranged above the two support plates (23);

the driving assembly comprises a mounting seat (26) fixedly mounted on the inner wall of the front surface of the storage box (1) and a bottom plate (22) fixedly mounted on the bottom end of the placement frame (17), a double-shaft motor (27) is mounted on the top end of the mounting seat (26), rotary tables (20) are fixedly connected to output shafts at two ends of the double-shaft motor (27), and a hinging rod (21) is connected between the position, close to the edge, of the side wall of the disc surface of the rotary table (20) and the bottom plate (22); the knocking component comprises mounting rods (7) fixedly mounted on one sides of the two turnover plates (5) which are close to each other, and a hammer (8) for knocking a solid sample placed in the placement frame (17) is fixedly connected between one ends of the two mounting rods (7) which are close to each other; the transmission assembly comprises a connecting rod (12) fixedly arranged on one side, away from each other, of the two overturning plates (5) and a transmission fluted disc II (15) rotatably arranged on the inner walls of two sides of the storage box (1), the transmission fluted disc II (15) is meshed with the driven fluted disc (10), a transmission fluted disc I (14) is fixedly arranged on one side, close to the inside of the storage box (1), of the transmission fluted disc II (15), and one end, away from the overturning plates (5), of the connecting rod (12) is fixedly connected with a driving fluted disc (9) meshed with the transmission fluted disc I (14); damping sliding grooves (28) are formed in one side, close to each other, of the two driven toothed plates (10), the damping sliding grooves are formed in the length direction of the driven toothed plates, damping sliding blocks (29) which rotate with the dust removing rollers (18) are mounted at two ends of the dust removing rollers (18), and the damping sliding blocks (29) are slidably mounted in the damping sliding grooves (28);

a traction rope (6) is connected between the top end of the turnover plate (5) and one side of the placement frame (17) close to the front surface of the storage box (1), the traction rope (6) bypasses the rotating rod (4), and a wiring groove (25) matched with the traction rope (6) is formed in the surface of the rotating rod (4);

the two end rotating shafts of the dust removal roller (18) are fixedly sleeved with a transmission fluted disc III (16), and the inner walls of the two sides of the storage box (1) are fixedly connected with a fixed toothed plate (11) for driving the transmission fluted disc III (16) to rotate.

2. A geological survey solid sample storage cartridge device according to claim 1, wherein: the storage box (1) is fixedly connected with two symmetrically distributed sleeves (13) close to the inner wall of the front face, and the end parts of the driving toothed plates (9) extend to the inside of the sleeves (13) and slide.

3. A geological survey solid sample storage cartridge device according to claim 1, wherein: one side of the driven toothed plate (10) far away from the dust removal roller (18) is fixedly connected with a limiting plate (24), and limiting grooves (19) for sliding of the limiting plate (24) are formed in the inner walls of the two sides of the storage box (1).

4. A geological survey solid sample storage cartridge device according to any one of claims 1-3, wherein: the front of the storage box (1) is close to the notch communicated with the inside of the storage box (1) at the position below, and the dust collecting drawer (3) is slidably arranged at the notch.