CN116952915B - Core fluorescent scanner - Google Patents

Abstract

The invention relates to the technical field of measurement and detection, in particular to a core fluorescence scanner, which comprises a bottom box and a scanner, wherein a mounting frame is fixed on the bottom box, the scanner is fixed on the mounting frame, a rectangular opening is formed in the upper part of the bottom box, a movable seat is movably arranged in the bottom box, a plurality of carrier rollers are equidistantly arranged on the movable seat, the movable seat can extend out of the rectangular opening, a driving assembly is arranged in the movable seat and is used for driving the carrier rollers to rotate, a lifting driving mechanism is arranged in the bottom box and is used for driving the movable seat to lift, two rotating rollers are arranged at one end of the upper part of the bottom box, a transmission mechanism is arranged between the movable seat and the two rotating rollers, openings are formed in two sides of the bottom box, and a material plate is obliquely arranged in each opening. According to the invention, the scanner can realize horizontal scanning and rotary scanning without transverse movement, so that poor scanning effect caused by instability in moving the scanner is avoided, and the scanning precision is improved.

Description

Core fluorescent scanner

Technical Field

The invention relates to the technical field of measurement and detection, in particular to a core fluorescence scanner.

Background

In geological exploration operation, fluorescence is a direct index for judging the geological condition of a core, currently, a core fluorescence scanner is mainly adopted to perform flat scanning and rotary scanning on a core sample, geological elements are judged according to the intensity and the fluorescence area of the fluorescence, the outer surface of the core can be subjected to image acquisition, and rock section and core circumference image acquisition can be performed.

The existing core scanner is used for manually placing the core on two carrier rollers, further horizontally sweeping the core by moving the scanning head, driving the carrier rollers to drive the core to rotate for 360 degrees for scanning, and certain vibration and shaking exist on the guide rail when the scanning head moves, so that the scanning is inaccurate easily caused, the core is required to be manually placed and manually taken down at present, automatic feeding and discharging cannot be performed when the core is scanned in batches, and the operation is inconvenient.

Disclosure of Invention

Therefore, the invention aims to provide a core fluorescence scanner to solve the problems that the existing core scanner is unstable in horizontal scanning by means of the movement of a scanning head and cannot automatically feed and discharge.

Based on the above object, the present invention provides a core fluorescence scanner

The utility model provides a rock core fluorescence scanner, includes base box, scanner, be fixed with the mounting bracket on the base box, and the scanner is fixed in on the mounting bracket, rectangular mouth is opened on base box upper portion, the base box internalization is equipped with and removes the seat, and removes the equidistance and install a plurality of bearing rollers on the seat, removes the seat and can stretch out by rectangular mouth, it is equipped with drive assembly in the seat to remove, drive assembly is used for driving a plurality of bearing rollers and rotates, be equipped with lift actuating mechanism in the base box, lift actuating mechanism is used for driving to remove the seat and goes up and down, base box upper portion one end is equipped with two rotatory rollers, and two rotatory roller activity sets up in rectangular mouth both sides, remove and be equipped with drive mechanism between seat and the two rotatory rollers, it moves to the end back to remove the seat, can drive two rotatory rollers and draw close each other under drive mechanism and take over the support rock core, the base box both sides all open the opening, all slope is equipped with the flitch in the opening, two flitch dislocation sets, and two flitch are used for feeding, unloading respectively, be equipped with automatic unloading mechanism that goes up and down in the base box.

Further, the display end is fixed on one side of the bottom box through the support, and scanning data of the scanner can be displayed on the display end.

Further, the drive assembly includes a plurality of side bars, and a plurality of bearing rollers rotate respectively and locate on a plurality of side bars, the inside cavity of side bar just is linked together with moving the seat inside, and one side all is equipped with first belt in the side bar, and bearing roller jackshaft one end is all located to first belt one end cover, it is equipped with a plurality of pulleys to move the equidistant rotation in the seat, and on the pulley was all located to the equal cover of first belt other end, the cover is equipped with a second belt between a plurality of pulleys, it is fixed with a fourth motor to remove the seat internal fixation, the fourth motor is used for driving one of them band pulley.

Further, the lifting driving mechanism comprises connecting blocks fixed on two sides of the movable seat, screw rods are respectively arranged on two sides of the bottom box in a rotating mode, the two screw rods penetrate through the two connecting blocks respectively and are in threaded connection with the two connecting blocks, second motors are respectively fixed on two sides of the bottom box, and the second motors are respectively used for driving the two screw rods to rotate.

Further, the both ends of the rotating roller are all rotationally connected with the side frames, and the other ends of the side frames are all movably connected to the bottom box, a third motor is fixed on one of the side frames and used for driving one of the rotating rollers to rotate, a plurality of strip-shaped grooves are formed in the upper portion of the bottom box, and one ends of the side frames penetrate through the strip-shaped grooves and are movably connected with the strip-shaped grooves respectively.

Further, the drive mechanism includes a plurality of slides, and upper portion in the base case is all slided to a plurality of slides, slide upper portion one side all opens the spout, and a plurality of side bearer lower extreme slides respectively and locates in a plurality of spouts, side bearer one side all is fixed with the squeeze lever, the inside roof both sides of base case all are fixed with a plurality of triangular blocks, and a plurality of triangular blocks correspond the setting with a plurality of squeeze levers, when the slide was moved up, corresponding squeeze lever one end can contact with a corresponding triangular block inclined plane one side, it all is fixed with a plurality of ejector pins to remove the seat both sides, and a plurality of ejector pins are used for jack-up a plurality of slides respectively.

Further, all run through and be equipped with a plurality of guide posts on the slide, and guide post upper end all is fixed in the inside roof of base case, all be equipped with the spring in the spout, spring one end supports tightly the side bearer, and the spring other end supports tightly spout one side inner wall.

Further, automatic unloading mechanism includes two pivots, and two pivots rotate respectively and locate the lower part both sides in the base box, all overlap in the pivot and establish and be fixed with a set of stirring rod, two breach grooves have all been opened to the flitch both sides, stirring rod can reciprocate and pass the breach groove, base box one side is fixed with first motor, and first motor is used for driving one of them pivot rotation, the base box opposite side is fixed with fixed box, and two pivot one end all extend to in the fixed box and overlap to establish and be fixed with two gears, and the cover is equipped with same toothed belt on two gears.

Furthermore, the end part of one side of the material turning rod is fixedly provided with a material blocking protrusion, and the end of the other side of the material turning rod, which is far away from the material blocking protrusion, is provided with a buffer pad.

The invention has the beneficial effects that:

according to the invention, through the lifting movable seat, the plurality of carrier rollers are arranged on the movable seat, the rotary rollers are arranged on two sides of the upper part of the bottom box, and the rotary rollers are matched with the transmission mechanism, so that when the device is used, a core can be placed on the plurality of carrier rollers, and then the two second motors are driven to drive the two screw rods to rotate, so that the movable seat drives the core to move upwards to pass through the rectangular groove, at the moment, the plurality of carrier rollers are driven to rotate, the core horizontally moves on the plurality of carrier rollers, the scanner performs horizontal scanning on the core, after the horizontal scanning is finished, the core moves to the other end of the movable seat, at the moment, the core is positioned between the two rotary rollers, the movable seat is driven to move upwards, the plurality of ejector rods jack up the sliding seat, the extrusion rods and the triangular blocks are contacted and drive the side frames to move under the extrusion action, so that the rotary rollers on two sides are close to each other, at the moment, one rotary roller is driven to rotate, and the other rotary rollers are driven to rotate, so that the core is driven to rotate, and the horizontal scanning and the rotary scanning can be realized without unstable scanning effect when the scanner moves, and the scanning precision is improved.

According to the automatic feeding and discharging mechanism, after the core on the movable seat is detected, the movable seat is driven to move downwards to the lower part of the bottom box, the first motor is started to drive the two rotating shafts to rotate through the transmission of the gears and the toothed belts, the two groups of material turning rods are used for feeding and discharging on the two material plates respectively, automatic feeding and discharging are achieved, and efficiency is improved during batch detection.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only of the invention and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic perspective cross-sectional view of an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a side view of an embodiment of the present invention;

FIG. 4 is a perspective view of a rotating roller according to an embodiment of the present invention;

FIG. 5 is a schematic plan view of a movable seat according to an embodiment of the present invention;

FIG. 6 is a schematic perspective view of a turning bar according to an embodiment of the present invention;

fig. 7 is a schematic plan sectional view of a fixing case according to an embodiment of the present invention.

Marked in the figure as:

1. a bottom box; 2. a material plate; 3. a notch groove; 4. a display end; 5. a scanner; 6. a mounting frame; 7. a rotating roller; 8. a side frame; 9. a rectangular opening; 10. a fixed box; 11. a bar-shaped groove; 12. a turning rod; 13. a first motor; 14. a carrier roller; 15. a movable seat; 16. a connecting block; 17. a screw rod; 18. a second motor; 19. triangular blocks; 20. a slide; 21. a side bar; 22. a first belt; 23. a belt wheel; 24. a second belt; 25. a rotating shaft; 26. a cushion pad; 27. a blocking protrusion; 28. an extrusion rod; 29. a third motor; 30. a chute; 31. a spring; 32. a guide post; 33. a gear; 34. a fourth motor; 35. a toothed belt; 36. and (5) a push rod.

Detailed Description

The present invention will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent.

It is to be noted that unless otherwise defined, technical or scientific terms used herein should be taken in a general sense as understood by one of ordinary skill in the art to which the present invention belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

As shown in fig. 1-7, the core fluorescence scanner comprises a base box 1 and a scanner 5, wherein a mounting frame 6 is fixed on the base box 1, the scanner 5 is fixed on the mounting frame 6, a rectangular opening 9 is formed in the upper portion of the base box 1, a movable seat 15 is movably arranged in the base box 1, a plurality of carrier rollers 14 are equidistantly arranged on the movable seat 15, the movable seat 15 can extend out of the rectangular opening 9, a driving assembly is arranged in the movable seat 15 and is used for driving the plurality of carrier rollers 14 to rotate, a lifting driving mechanism is arranged in the base box 1 and is used for driving the movable seat 15 to lift, two rotary rollers 7 are arranged at one end of the upper portion of the base box 1 and are movably arranged at two sides of the rectangular opening 9, a transmission mechanism is arranged between the movable seat 15 and the two rotary rollers 7, after the movable seat 15 moves up to the tail end, the movable seat 15 can drive the two rotary rollers 7 to be mutually close to each other and support under the action of the transmission mechanism, the scanner 5 can realize flat scanning and rotary scanning without transverse movement, two openings are formed in the base box 1, two openings are formed in the two openings 2, and two blanking plates 2 are respectively arranged in the base box 1, and two blanking plates are arranged in the two blanking plates 2.

The display end 4 is fixed on one side of the bottom box 1 through a bracket, and the scanning data of the scanner 5 can be displayed on the display end 4.

The driving assembly comprises a plurality of side rods 21, the plurality of carrier rollers 14 are respectively arranged on the plurality of side rods 21 in a rotating mode, the side rods 21 are hollow and are communicated with the inside of the movable seat 15, one side in each side rod 21 is provided with a first belt 22, one end of each first belt 22 is sleeved at one end of a middle shaft of the carrier roller 14, a plurality of belt wheels 23 are arranged in each movable seat 15 in an equidistant rotating mode, the other end of each first belt 22 is sleeved on each belt wheel 23, a second belt 24 is sleeved between the plurality of belt wheels 23, a fourth motor 34 is fixed in each movable seat 15, and each fourth motor 34 is used for driving one belt wheel 23.

The lifting driving mechanism comprises connecting blocks 16 fixed on two sides of the movable seat 15, screw rods 17 are rotatably arranged on two sides in the bottom box 1, the two screw rods 17 penetrate through the two connecting blocks 16 respectively and are in threaded connection with the two connecting blocks, second motors 18 are fixed on two sides of the bottom box 1, and the second motors 18 are used for driving the two screw rods 17 to rotate respectively.

The both ends of rotatory roller 7 all rotate and are connected with side bearer 8, and the equal swing joint of side bearer 8 other end is on the base case 1, is fixed with third motor 29 on one of them side bearer 8, and third motor 29 is used for driving one of them rotatory roller 7 rotatory, a plurality of bar grooves 11 have been opened to base case 1 upper portion, a plurality of side bearer 8 one ends run through a plurality of bar grooves 11 respectively and rather than swing joint.

The transmission mechanism comprises a plurality of sliding seats 20, the sliding seats 20 are all arranged on the upper portion in the bottom box 1 in a sliding mode, sliding grooves 30 are formed in one side of the upper portion of the sliding seats 20, the lower ends of the side frames 8 are respectively arranged in the sliding grooves 30 in a sliding mode, extrusion rods 28 are all fixed on one side of the side frames 8, a plurality of triangular blocks 19 are respectively fixed on two sides of the top wall in the bottom box 1, the triangular blocks 19 are correspondingly arranged with the extrusion rods 28, when the sliding seats 20 move upwards, one end of each corresponding extrusion rod 28 can be in contact with one inclined surface of the corresponding triangular block 19, a plurality of ejector rods 36 are respectively fixed on two sides of each movable seat 15, the ejector rods 36 are respectively used for jacking the sliding seats 20, after the ejector rods 36 are in contact with the sliding seats 20, the movable seats 15 and the two rotary rollers 7 can move upwards synchronously, in the process, the two rotary rollers 7 are close to each other, and a core supported on the carrier roller 14 can be supported between the two rotary rollers 7 in a transposition mode.

The sliding seat 20 is provided with a plurality of guide posts 32 in a penetrating way, the upper ends of the guide posts 32 are fixed on the top wall inside the bottom box 1, springs 31 are arranged in the sliding grooves 30, one ends of the springs 31 are abutted against the side frames 8, and the other ends of the springs 31 are abutted against the inner wall on one side of the sliding grooves 30.

The automatic feeding and discharging mechanism comprises two rotating shafts 25, the two rotating shafts 25 are respectively arranged on two sides of the lower portion in the bottom box 1 in a rotating mode, a group of turning rods 12 are fixedly sleeved on the rotating shafts 25, the two groups of turning rods 12 are arranged in a staggered mode, two notch grooves 3 are formed in two sides of the material plate 2, the turning rods 12 can pass through the notch grooves 3 in a reciprocating mode, a first motor 13 is fixed on one side of the bottom box 1, the first motor 13 is used for driving one rotating shaft 25 to rotate, a fixed box 10 is fixed on the other side of the bottom box 1, one end of each rotating shaft 25 extends into the fixed box 10 and is sleeved with two gears 33, the same toothed belt 35 is sleeved on the two gears 33, when the movable seat 15 is located at the initial position, the two groups of turning rods 12 are located on two sides of the movable seat 15 and are respectively used for feeding and discharging, a core detected at the moment is located at one end of the carrier roller 14, and the core waiting to be fed to the other end of the carrier roller 14, and feeding is not required.

The end of one side of the turning rod 12 is fixedly provided with a blocking protrusion 27, one end of the other side of the turning rod 12, which is far away from the blocking protrusion 27, is provided with a cushion pad 26, and the blocking protrusion 27 prevents the core from accidentally sliding out when the turning rod 12 is fed, and the cushion pad 26 can prevent the core from exceeding the carrier roller 14 due to too high sliding speed when the core slides down.

Working principle: when in use, a plurality of cores are laid on the material plate 2 for feeding, the first motor 13 is driven to drive the rotating shaft 25 to rotate, so that one group of material turning rods 12 rotate to lift the core at the lowest end in the material plate 2, the material turning rods 12 are lifted to continue rotating, the cores are fed to one end of the upper part of the movable seat 15 and are arranged on the plurality of carrier rollers 14, the two second motors 18 are driven to drive the two screw rods 17 to rotate, the movable seat 15 drives the cores to move upwards to pass through the rectangular opening 9, the plurality of carrier rollers 14 are driven to rotate at the moment, the cores horizontally move on the plurality of carrier rollers 14, the scanner 5 performs horizontal scanning on the cores, after the horizontal scanning is finished, the cores are moved to the other end of the movable seat 15, at this time, the core is located between the two rotating rollers 7, the moving seat 15 is driven to continuously ascend, the plurality of push rods 36 jack up the plurality of sliding seats 20, the extrusion rods 28 are contacted with the triangular blocks 19 to drive the side frames 8 to move under extrusion, the rotating rollers 7 on two sides are mutually close to support the core on the carrier roller 14, then the third motor 29 is driven to rotate one of the rotating rollers 7, so that the core is subjected to rotary scanning, after detection, the moving seat 15 is driven to move downwards to the initial position of the lower part, the first motor 13 is started again to drive the two rotating shafts 25 to rotate through the transmission of the gears 33 and the toothed belts 35, one group of turning rods 12 are used for feeding on one of the material plates, and the other group of turning rods 12 are used for discharging on the carrier roller 14.

The present invention is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the scope of the present invention.

Claims (5)

1. The core fluorescence scanner comprises a base box (1) and a scanner (5), and is characterized in that a mounting frame (6) is fixed on the base box (1), the scanner (5) is fixed on the mounting frame (6), a rectangular opening (9) is formed in the upper portion of the base box (1), a movable seat (15) is movably arranged in the base box (1), a plurality of carrier rollers (14) are equidistantly arranged on the movable seat (15), the movable seat (15) can extend out from the rectangular opening (9), a driving assembly is arranged in the movable seat (15), the driving assembly is used for driving the plurality of carrier rollers (14) to rotate, a lifting driving mechanism is arranged in the base box (1), the lifting driving mechanism is used for driving the movable seat (15) to lift, two rotary rollers (7) are arranged at one end of the upper portion of the base box (1), the two rotary rollers (7) are movably arranged on two sides of the rectangular opening (9), a transmission mechanism is arranged between the movable seat (15) and the two rotary rollers (7), after the movable seat (15) is moved to the tail end, the movable seat (15) can be stretched out from the rectangular opening (9), two rotary rollers (7) can be used for driving two inclined plates (2) to be arranged in the two inclined plates (2) respectively, two inclined plates (2) are arranged on the two sides of the base box, an automatic feeding and discharging mechanism is arranged in the bottom box (1);

the driving assembly comprises a plurality of side rods (21), a plurality of carrier rollers (14) are respectively arranged on the side rods (21) in a rotating mode, the side rods (21) are hollow and are communicated with the inside of the movable seat (15), one sides in the side rods (21) are respectively provided with a first belt (22), one ends of the first belts (22) are respectively sleeved at one end of a middle shaft of the carrier rollers (14), a plurality of belt wheels (23) are respectively arranged in the movable seat (15) in an equidistant rotating mode, the other ends of the first belts (22) are respectively sleeved on the belt wheels (23), a second belt (24) is sleeved between the belt wheels (23), a fourth motor (34) is fixed in the movable seat (15), and the fourth motor (34) is used for driving one belt wheel (23);

the lifting driving mechanism comprises connecting blocks (16) fixed on two sides of the movable seat (15), screw rods (17) are respectively arranged on two sides in the bottom box (1) in a rotating mode, the two screw rods (17) respectively penetrate through the two connecting blocks (16) and are in threaded connection with the two connecting blocks, second motors (18) are respectively fixed on two sides of the bottom box (1), and the second motors (18) are respectively used for driving the two screw rods (17) to rotate;

the two ends of the rotating roller (7) are rotatably connected with side frames (8), the other ends of the side frames (8) are movably connected to the bottom box (1), a third motor (29) is fixed on one side frame (8), the third motor (29) is used for driving one of the rotating rollers (7) to rotate, a plurality of strip-shaped grooves (11) are formed in the upper portion of the bottom box (1), and one ends of the side frames (8) penetrate through the strip-shaped grooves (11) respectively and are movably connected with the strip-shaped grooves;

the transmission mechanism comprises a plurality of sliding seats (20), the sliding seats (20) are all arranged on the upper portion in the bottom box (1) in a sliding mode, sliding grooves (30) are formed in one side of the upper portion of the sliding seats (20), the lower ends of the side frames (8) are respectively arranged in the sliding grooves (30) in a sliding mode, extrusion rods (28) are respectively fixed on one side of the side frames (8), a plurality of triangular blocks (19) are respectively fixed on two sides of the top wall inside the bottom box (1), the triangular blocks (19) are correspondingly arranged with the extrusion rods (28), one end of each corresponding extrusion rod (28) can be in contact with one inclined surface side of the corresponding triangular block (19) when the sliding seats (20) move upwards, a plurality of ejector rods (36) are respectively fixed on two sides of each movable seat (15), and the ejector rods (36) are respectively used for jacking the sliding seats (20).

2. The core fluorescence scanner as claimed in claim 1, further comprising a display end (4), wherein the display end (4) is fixed to one side of the bottom case (1) through a bracket, and scanning data of the scanner (5) can be displayed on the display end (4).

3. The core fluorescence scanner as set forth in claim 2, wherein the slide base (20) is provided with a plurality of guide posts (32) in a penetrating manner, the upper ends of the guide posts (32) are fixed on the top wall inside the bottom case (1), springs (31) are arranged in the sliding grooves (30), one ends of the springs (31) are abutted against the side frames (8), and the other ends of the springs (31) are abutted against the inner wall of one side of the sliding grooves (30).

4. The core fluorescence scanner as set forth in claim 3, wherein the automatic feeding and discharging mechanism comprises two rotating shafts (25), the two rotating shafts (25) are respectively arranged on two sides of the inner lower portion of the bottom case (1) in a rotating mode, a group of turning bars (12) are respectively sleeved and fixed on the rotating shafts (25), two notch grooves (3) are respectively formed in two sides of the material plate (2), the turning bars (12) can pass through the notch grooves (3) in a reciprocating mode, a first motor (13) is fixed on one side of the bottom case (1), the first motor (13) is used for driving one rotating shaft (25) to rotate, a fixing case (10) is fixed on the other side of the bottom case (1), one ends of the two rotating shafts (25) are respectively extended into the fixing case (10) and sleeved and fixed with two gears (33), and the same toothed belt (35) is sleeved on the two gears (33).

5. The core fluorescence scanner as set forth in claim 4, wherein the end of one side of the material turning rod (12) is fixed with a material blocking protrusion (27), and one end of the other side of the material turning rod (12) far away from the material blocking protrusion (27) is provided with a buffer pad (26).