CN111474016B

CN111474016B - Automatic sampling and grouping device with adjustable sampling interval for rock debris logging

Info

Publication number: CN111474016B
Application number: CN202010383849.7A
Authority: CN
Inventors: 车强虎
Original assignee: Jiangsu Shuangxin Group Co ltd
Current assignee: JIANGSU SHUANGXIN GROUP Co.,Ltd.
Priority date: 2020-05-08
Filing date: 2020-05-08
Publication date: 2020-12-18
Anticipated expiration: 2040-05-08
Also published as: CN111474016A; GB202012977D0

Abstract

The invention discloses an automatic sampling grouping device with adjustable sampling intervals for rock debris logging; including the main part case, the main part incasement is equipped with the ascending reciprocal sample chamber of opening, reciprocal sample chamber downside intercommunication is equipped with the slider guide rail, reciprocal sample chamber downside intercommunication is equipped with the downward opening and is located the detritus discharge chamber of slider guide rail rear side, slider guide rail downside intercommunication is equipped with the carousel chamber, can adjust to connect the interval of getting the case and carrying out reciprocating motion through stirring the driving lever, thereby realize selecting different sample intervals according to actual conditions and sample automatically, can automatic grouping send into in the detritus basin and wash one of them group after the sample is accomplished simultaneously, tester's work efficiency has been increased, on the other hand drives through the rack and connects the case motion of getting and guarantees that sample time is the same at every turn in order to guarantee that sample volume is the same at every turn, the variable has been reduced, more do benefit to.

Description

Automatic sampling and grouping device with adjustable sampling interval for rock debris logging

Technical Field

The invention relates to the technical field related to oil exploitation, in particular to an automatic sampling grouping device with adjustable sampling intervals for rock debris logging.

Background

Rock debris logging needs surely to creep into the interval and gathers the sample to the rock debris, and fall into washing and two sets of confession follow-up appraisal not ablely, because the sample interval receives actual conditions to influence and needs often to adjust, difficult automatic completion, the rock debris sample is mostly used the manual work at sand outlet below sample at present, because the sample volume is great under most circumstances, the manual sampling is divided into groups the cleaning efficiency lower and the amount of labour is great, on the other hand manual sampling can't guarantee that the rock debris volume of sampling at every turn is the same, can make follow-up appraisal have certain variable.

Disclosure of Invention

Aiming at the technical defects, the invention provides an automatic sampling grouping device with adjustable sampling intervals for rock debris logging, which can overcome the defects.

The invention relates to an automatic sampling grouping device with adjustable sampling intervals for rock debris logging, which comprises a main body box, wherein a reciprocating sampling cavity with an upward opening is arranged in the main body box, a slider guide rail is communicated and arranged at the lower side of the reciprocating sampling cavity, a rock debris discharging cavity with a downward opening and positioned at the rear side of the slider guide rail is communicated and arranged at the lower side of the slider guide rail, a turntable cavity is communicated and arranged at the lower side of the turntable cavity, a rack cavity is arranged at the lower side of the rack cavity, an adjusting cavity is arranged at the left side of the adjusting cavity, a power steering cavity is arranged at the right end wall of the power steering cavity, a slant transmission shaft extending to the adjusting cavity from the upper right side is connected in a rotating and matching manner, a conical friction wheel is fixedly connected at the right end of the slant transmission shaft, and a rotating speed adjusting shaft extending to the rack cavity upwards and extending to the adjusting cavity downwards is connected, spline fit is connected with and is located on the rotational speed control axle the integral key shaft of regulation intracavity, on the integral key shaft fixedly connected with the friction pulley of toper friction pulley butt, it is equipped with the logical chamber of forward open-ended driving lever to adjust chamber front side intercommunication, the terminal normal running fit of integral key shaft downside is connected with and extends forward and runs through the driving lever leads to chamber to external driving lever, it is equipped with elastic cord wheel chamber to adjust the chamber downside, elastic cord wheel chamber downside is equipped with about band pulley chamber, about band pulley chamber downside bilateral symmetry is equipped with the cam chamber, cam chamber outside intercommunication is equipped with the outside detritus basin sliding chamber of opening, detritus basin sliding chamber rear side intercommunication is equipped with the detritus basin.

On the basis of the technical scheme, a motor fixedly connected with the main body box is arranged on the upper side of the power steering cavity, a first bevel gear which extends upwards to be fixedly connected with the lower end surface of the motor and extends downwards to the elastic belt wheel cavity is connected in a rotating fit manner in the upper end surface of the power steering cavity, a second bevel gear which is fixedly connected with the first bevel gear is arranged in the power steering cavity, a driving shaft which is fixedly connected with the oblique transmission shaft and is meshed with the second bevel gear is also arranged in the power steering cavity, cam rotating shafts which extend upwards to the left belt wheel cavity and the right belt wheel cavity and extend downwards to the cam cavity are connected in a left-right symmetric rotating fit manner in the lower end walls of the left belt wheel cavity and the right belt wheel cavity, the cam rotating shafts extend upwards to the elastic belt wheel cavity, and left driving belts which are positioned in the left belt, the first bevel gear and the left side the elastic transmission belt located in the elastic belt wheel cavity is connected between the cam rotating shafts in a power fit mode, a tightening block cavity is communicated with the upper side of the elastic belt wheel cavity, a tightening block capable of tightening the elastic transmission belt is connected in the tightening block cavity in a sliding fit mode, and a tightening compression spring is fixedly connected between the upper end face of the tightening block and the upper end wall of the tightening block cavity.

On the basis of the technical scheme, a cam is arranged in the cam cavity, the cam is positioned in the cam cavity and fixedly connected with the cam rotating shaft, a cam push block which is positioned on the outer side of the cam and abutted against the cam is connected in the cam cavity in a sliding fit manner, a cam extension spring is fixedly connected between the inner end surface of the cam push block and the inner end wall of the cam cavity, a push plate is connected in the rock debris basin in a sliding fit manner, a push plate compression spring is fixedly connected between the rear end surface of the push plate and the rear end wall of the rock debris basin, a plurality of rock debris basins which are positioned on the front side of the push plate are arranged in the rock debris basin, a pressure plate cavity corresponding to the rock debris basin on the left side is communicated and arranged at the lower side of the sliding cavity of the rock debris basin on the left side, a pressure plate is connected in the pressure, the end surface still fixedly connected with the other end under the clamp plate with stay cord, right side when tightening piece up end fixed connection the piece sliding chamber upside is equipped with the water storage chamber, fixedly connected with water pump in the end wall under the water storage chamber, water pump downside intercommunication be equipped with the right side rock bits basin sliding chamber intercommunication send the water cavity.

On the basis of the technical scheme, an incomplete gear is arranged in the rack cavity, the incomplete gear is positioned in the rack cavity and is fixedly connected with the rotating speed adjusting shaft, a rack which is positioned at the rear side of the incomplete gear and can be meshed with the incomplete gear is connected in a sliding fit manner in the rack cavity, a rack compression spring is fixedly connected between the right end surface of the rack and the right end wall of the rack cavity, a one-way rotating shaft which extends upwards into the turntable cavity and downwards into the rack cavity is connected in an upper end wall of the rack cavity in a rotating fit manner, the one-way rotating shaft is positioned at the front side of the rack, a one-way bearing is fixedly connected at the tail end of the lower side of the one-way rotating shaft, a transmission gear meshed with the rack is connected on the one-way bearing in a rotating fit manner, a turntable is fixedly connected at the tail end of the, and the tail end of the upper side of the cylindrical pin is connected with a connecting rod which extends rightwards in a rotating fit manner.

On the basis of the technical scheme, a slide block is arranged in the slide block guide rail, the slide block is positioned in the slide block guide rail and is connected with the slide block guide rail in a sliding fit manner, the right end of the connecting rod is hinged with the left end surface of the sliding block, the upper end surface of the sliding block is fixedly connected with the connecting rod positioned in the reciprocating sampling cavity, the tail ends of the left side and the right side of the upper end surface of the connecting rod are symmetrically and fixedly connected with a receiving box, an inclined rock debris cavity with an upward opening is arranged in the receiving box, the tail end of the outer side of the lower end face of the inclined rock debris cavity is communicated with a rock debris through cavity with a downward opening, the outer side of the rock debris through cavity is communicated with a magnetic through cavity with an outward opening, the inner side of the rock debris through cavity is communicated with a baffle cavity corresponding to the magnetic through cavity, a magnetic baffle is connected in the baffle cavity in a sliding fit manner, and a baffle plate compression spring is fixedly connected between the inner end surface of the magnetic baffle plate and the inner end wall of the baffle plate cavity.

On the basis of the technical scheme, a bar magnet is arranged in the reciprocating sampling cavity, the bar magnet is bilaterally and symmetrically fixedly connected with the left end wall and the right end wall of the reciprocating sampling cavity and corresponds to the magnetic through cavity, a feeding pipe which can correspond to the rock debris through cavity is fixedly connected with the bilateral symmetry of the lower end wall of the reciprocating sampling cavity, an opening is arranged in the feeding pipe and extends upwards and downwards to a feeding cavity in the main box, the lower side of the feeding cavity is communicated with a rock debris collecting cavity, the lower side of the rock debris collecting cavity is bilaterally and symmetrically communicated with a rock debris binary cavity which extends downwards to the rock debris sliding cavity communicated with the rock debris basin sliding cavity, the left side of the rock debris binary cavity is communicated with a trigger block cavity, the lower side of the trigger block is communicated with a magnetic slide block cavity, a trigger block is connected in a sliding fit manner in the trigger block cavity, and a, the device comprises a trigger block, a magnetic slider, a slider compression spring, a trigger pull rope and a tightening block, wherein the trigger compression spring is fixedly connected between the right end face of the trigger block and the right end wall of a cavity of the trigger block, the magnetic slider is connected in a sliding fit manner in the cavity of the magnetic slider, the slider compression spring is fixedly connected between the lower end face of the magnetic slider and the lower end wall of the cavity of the magnetic slider, and the trigger pull rope is fixedly connected with the other end of the lower end face of the.

The invention has the beneficial effects that: can adjust to connect through stirring the driving lever and get the case and carry out reciprocating motion's interval to the realization is selected different sampling intervals according to actual conditions and is taken a sample automatically, can automatic grouping send into in the detritus basin and wash one of them group after the sample is accomplished simultaneously, tester's work efficiency has been increased, on the other hand resets through the rack and drives to connect to get the case motion and guarantee that sampling time is the same in order to guarantee that sampling volume is the same at every turn, the variable has been reduced, more do benefit to follow-up appraisal.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an automatic sampling and grouping device with adjustable sampling intervals for rock debris logging according to the present invention;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic top view of the structure of FIG. 1;

FIG. 4 is an enlarged view of the structure at B in FIG. 1;

fig. 5 is an enlarged schematic view of the structure at C in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

As shown in fig. 1 to 5, the automatic sampling grouping device with adjustable sampling intervals for rock debris logging of the device of the present invention comprises a main body box 10, a reciprocating sampling cavity 33 with an upward opening is arranged in the main body box 10, a slider guide rail 36 is communicated with the lower side of the reciprocating sampling cavity 33, a rock debris discharge cavity 34 with a downward opening and located at the rear side of the slider guide rail 36 is communicated with the lower side of the reciprocating sampling cavity 33, a turntable cavity 78 is communicated with the lower side of the slider guide rail 36, a rack cavity 70 is arranged on the lower side of the turntable cavity 78, an adjusting cavity 42 is arranged on the lower side of the rack cavity 70, a power steering cavity 14 is arranged on the left side of the adjusting cavity 42, an oblique transmission shaft 17 extending to the upper right side is rotatably and fittingly connected to the right end wall of the power steering cavity 14, a conical friction wheel 11 is fixedly connected to the right end of the oblique transmission shaft 17, and an upper end wall of the adjusting cavity 42 is rotatably fittingly connected to the oblique Extremely adjust rotational speed control shaft 41 in the chamber 42, spline fit connection has and is located on the rotational speed control shaft 41 spline shaft 58 in adjusting the chamber 42, spline shaft 58 go up fixedly connected with the friction pulley 40 of the 11 butts of toper friction pulley, it is equipped with the logical chamber 43 of forward open-ended driving lever to adjust chamber 42 front side intercommunication, the terminal normal running fit of spline shaft 58 downside is connected with and extends forward and runs through the logical chamber 43 of driving lever to external driving lever 44, it is equipped with elastic pulley chamber 57 to adjust chamber 42 downside, elastic pulley chamber 57 downside is equipped with left and right sides band pulley chamber 84, it is equipped with cam chamber 21 to control band pulley chamber 84 downside bilateral symmetry, the intercommunication is equipped with the outside detritus basin sliding chamber 46 of opening in the cam chamber 21 outside, detritus basin sliding chamber 46 rear side intercommunication is equipped with detritus basin 53.

In addition, in an embodiment, a motor 12 fixedly connected to the main body box 10 is disposed on an upper side of the power steering cavity 14, a first bevel gear 15 extending upward to a position fixedly connected to a lower end surface of the motor 12 and extending downward to the elastic belt wheel cavity 57 is rotatably fitted in an upper end surface of the power steering cavity 14, a second bevel gear 13 fixedly connected to the first bevel gear 15 is disposed in the power steering cavity 14, a driving shaft 16 fixedly connected to the oblique transmission shaft 17 and engaged with the second bevel gear 13 is further disposed in the power steering cavity 14, cam rotating shafts 86 extending upward to the left and right belt wheel cavities 84 and extending downward to the cam cavity 21 are rotatably fitted in left and right symmetry in lower end walls of the left and right belt wheel cavities 84, the left cam rotating shafts 86 extend upward to the elastic belt wheel cavity 57, and left and right driving belts 85 disposed in the left and right belt wheel cavities 84 are rotatably fitted and connected between the cam rotating shafts 86 The first bevel gear 15 and the left side are connected with an elastic transmission belt 56 in an elastic wheel cavity 57 in a power fit manner, the upper side of the elastic wheel cavity 57 is communicated with a tightening block cavity 20, a tightening block 18 capable of tightening the elastic transmission belt 56 is connected in the tightening block cavity 20 in a sliding fit manner, and a tightening compression spring 19 is fixedly connected between the upper end face of the tightening block 18 and the upper end wall of the tightening block cavity 20.

In addition, in an embodiment, a cam 22 is arranged in the cam cavity 21, the cam 22 is arranged in the cam cavity 21 and is fixedly connected with the cam rotating shaft 86, a cam push block 24 which is arranged on the outer side of the cam 22 and is abutted against the cam 22 is connected in the cam cavity 21 in a sliding fit manner, a cam extension spring 23 is fixedly connected between the inner end surface of the cam push block 24 and the inner end wall of the cam cavity 21, a push plate 55 is connected in the rock fragment cavity 53 in a sliding fit manner, a push plate compression spring 54 is fixedly connected between the rear end surface of the push plate 55 and the rear end wall of the rock fragment cavity 53, a plurality of rock fragment basins 52 which are arranged on the front side of the push plate 55 are arranged in the rock fragment cavity 53, a press plate cavity 48 which corresponds to the left rock fragment basin 53 is communicated with the lower side of the rock fragment basin sliding cavity 46, and a press plate 47 is connected in, terminal surface under the clamp plate 47 with fixedly connected with clamp plate compression spring 50 between the terminal wall under the clamp plate chamber 48, the terminal surface still fixedly connected with other end under the clamp plate 47 with stay cord 49, right side often of tight piece 18 up end fixed connection the rock debris basin sliding chamber 46 upside is equipped with water storage chamber 26, fixedly connected with water pump 29 in the water storage chamber 26 lower extreme wall, water pump 29 downside intercommunication be equipped with the right side the water cavity 28 that send of rock debris basin sliding chamber 46 intercommunication.

In addition, in an embodiment, an incomplete gear 31 is arranged in the rack cavity 70, the incomplete gear 31 is located in the rack cavity 70 and is fixedly connected with the rotating speed adjusting shaft 41, a rack 30 which is located behind the incomplete gear 31 and can be meshed with the incomplete gear 31 is connected in the rack cavity 70 in a sliding fit manner, a rack compression spring 71 is fixedly connected between the right end face of the rack 30 and the right end wall of the rack cavity 70, a one-way rotating shaft 67 which extends upwards into the turntable cavity 78 and downwards into the rack cavity 70 is connected in an upper end wall of the rack cavity 70 in a rotating fit manner, the one-way rotating shaft 67 is located at the front side of the rack 30, a one-way bearing 69 is fixedly connected to the lower end of the one-way rotating shaft 67, a transmission gear 68 which is meshed with the rack 30 is connected in a rotating fit manner on the one-way bearing 69, a turntable 79 is fixedly connected to the upper end of the one, the upper end face of the rotating disc 79 is fixedly connected with a cylindrical pin 66 which extends upwards into the slide block guide rail 36, and the tail end of the upper side of the cylindrical pin 66 is connected with a connecting rod 83 which extends rightwards in a rotating matching mode.

In addition, in one embodiment, a slider 80 is arranged in the slider guide rail 36, the slider 80 is located in the slider guide rail 36 and is connected with the slider guide rail 36 in a sliding fit manner, the right end of the connecting rod 83 is hinged with the left end face of the slider 80, the upper end face of the slider 80 is fixedly connected with a connecting rod 35 located in the reciprocating sampling cavity 33, the left end and the right end of the upper end face of the connecting rod 35 are symmetrically and fixedly connected with an access box 65, an inclined rock debris cavity 59 with an upward opening is arranged in the access box 65, the outer end of the lower end face of the inclined rock debris cavity 59 is downwards communicated with a rock debris through cavity 63 with a downward opening, the outer side of the rock debris through cavity 63 is communicated with a magnetic through cavity 62 with an outward opening, the inner side of the rock debris through cavity 63 is communicated with a baffle cavity 60 corresponding to the magnetic through cavity 62, and a magnetic baffle 61 is connected in the baffle, a baffle compression spring 64 is fixedly connected between the inner end surface of the magnetic baffle 61 and the inner end wall of the baffle cavity 60.

In addition, in one embodiment, a bar magnet 39 is arranged in the reciprocating sampling cavity 33, the bar magnet 39 is bilaterally symmetrical, the left end wall and the right end wall of the reciprocating sampling cavity 33 are fixedly connected and correspond to the magnetic through cavity 62, a feeding pipe 37 capable of corresponding to the rock debris through cavity 63 is fixedly connected to the left end wall and the right end wall of the reciprocating sampling cavity 33, a feeding cavity 38 with an opening extending upwards and downwards into the main body box 10 is arranged in the feeding pipe 37, a rock debris collecting cavity 77 is communicated and arranged at the lower side of the feeding cavity 38, a rock debris binary cavity 76 extending downwards into the rock debris basin sliding cavity 46 is communicated and arranged at the lower side of the rock debris collecting cavity 77 in a bilateral symmetrical mode, a trigger block cavity 51 is communicated and arranged at the right side of the rock debris binary cavity 76 at the left side, a magnetic slider cavity 74 is communicated and arranged at the lower side of the trigger block cavity 51, and a trigger block 82 is, a trigger block magnet 81 is fixedly connected in the lower end face of the trigger block 82, a trigger compression spring 75 is fixedly connected between the right end face of the trigger block 82 and the right end wall of the trigger block cavity 51, a magnetic slider 73 is connected in the magnetic slider cavity 74 in a sliding fit manner, a slider compression spring 72 is fixedly connected between the lower end face of the magnetic slider 73 and the lower end wall of the magnetic slider cavity 74, and a trigger pull rope 25 is fixedly connected at the other end of the lower end face of the magnetic slider 73 and the upper end face of the tensioning block 18.

The applicant will specifically describe an automatic sampling interval-adjustable sampling grouping device for rock fragment logging according to the present application with reference to fig. 1 to 5 and the above description:

in an initial state, the pressing plate 47 is partially positioned in the rock debris basin sliding cavity 46, the pressing plate compression spring 50 is in a relaxed state, the pulling rope 49 is in a tensed state, the tensed compression spring 19 is in a compressed state, the tensed block 18 is positioned on the upper side of the elastic transmission belt 56, the elastic transmission belt 56 is in a relaxed and non-transmission state, the slider compression spring 72 is in a compressed state, the trigger pulling rope 25 is in a relaxed state, the trigger compression spring 75 is in a relaxed state, the trigger block magnet 81 is positioned right above the magnetic slider 73, and the trigger block 82 is partially positioned in the left rock debris halving cavity 76;

when the vibrating screen starts to work, the sand outlet of the vibrating screen starts to discharge rock debris, the rock debris is discharged through the rock debris discharge cavity 34, the motor 12 is started, the water pump 29 is started, the water in the water storage cavity 26 is sprayed out through the water feeding cavity 28 by the water pump 29, the rock debris in the rock debris basin 52 in the right rock debris basin sliding cavity 46 is washed, the motor 12 drives the first bevel gear 15 to rotate, the inclined transmission shaft 17 is driven to rotate through the second bevel gear 13 and the driving shaft 16, the inclined transmission shaft 17 rotates to drive the friction wheel 40 to rotate through the conical friction wheel 11, the rotating speed adjusting shaft 41 is driven to rotate through the spline shaft 58, the rotating speed adjusting shaft 41 rotates to drive the incomplete gear 31 to rotate, the rack 30 is driven to overcome the rack compression spring 71 to move rightwards, the rack 30 drives the transmission gear 68 to rotate, the unidirectional rotating shaft 67 does not rotate under the action of the unidirectional bearing 69, and after the incomplete gear 31 rotates to be disengaged with the rack 30, the rack 30 moves left When the rock debris is reset, the rotating speed of the incomplete gear 31 is lower than that of the rack 30, the incomplete gear 31 still does not rotate for one circle when the rack 30 moves leftwards to reset, so that the incomplete gear is not meshed with the rack 30 again, the rack 30 moves leftwards to drive the one-way rotating shaft 67 to rotate through the transmission gear 68 and the one-way bearing 69, the one-way rotating shaft 67 rotates for half a circle, the one-way rotating shaft 67 rotates to drive the turntable 79 to rotate, the slider 80 is driven to reciprocate leftwards and rightwards through the cylindrical pin 66 and the connecting rod 83, the receiving box 65 is driven to reciprocate leftwards and rightwards through the connecting rod 35, and the automatic receiving and sampling of the;

when the interval time for receiving samples needs to be adjusted, the poking rod 44 is poked up and down to drive the friction wheel 40 to move upwards or downwards through the spline shaft 58, the rotating speed of the friction wheel 40 is adjusted, so that the interval of receiving samples at each time is adjusted by adjusting the time for rotating the incomplete gear 31 for one circle, meanwhile, the rotating speed of the one-way rotating shaft 67 is ensured to be unchanged after the rotating speed of the incomplete gear 31 is adjusted due to the fact that the one-way rotating shaft 67 is driven by resetting the rack 30, and therefore the same amount of receiving rock debris at each time is ensured by ensuring that the time for receiving rock debris at each time is the same;

when the receiving box 65 moves outwards until the rock debris through cavity 63 corresponds to the feeding cavity 38, the magnetic baffle 61 overcomes the pushing force of the baffle compression spring 64 to move inwards to be opened under the action of the repulsive force between the magnetic baffle 61 and the bar magnet 39, so that the rock debris in the inclined rock debris cavity 59 enters the rock debris collecting cavity 77 through the rock debris through cavity 63 and the feeding cavity 38 and uniformly divides into two parts to fall along the rock debris halving cavity 76, the rock debris abuts against the trigger block 82 when falling, the trigger block 82 is driven to overcome the pushing force of the trigger compression spring 75 to move rightwards, the magnetic slider 73 loses the repulsive force between the trigger block magnet 81 and the magnetic slider 73 and then moves upwards under the action of the slider compression spring 72, so that the trigger pull rope 25 is tensioned, the tensioned compression spring 19 is still in a compressed state at the moment, the trigger pull rope 25 and the normal pull rope 49 are both in a tensioned state, the rock debris falls into the rock debris basin 52 in the rock debris sliding cavity 46 through the rock debris halving cavity 76, the weight of the left rock debris basin 52 is increased, so that the pressure plate 47 is driven to move downwards by overcoming the pushing force of the pressure plate compression spring 50, at the moment, the pulling rope 49 is in a loosening state, the tightening compression spring 19 is still in a compression state under the action of the pulling force of the triggering pulling rope 25, when all rock debris in the rock debris halving cavity 76 is discharged, the triggering block 82 is reset under the action of the pushing force of the triggering compression spring 75, so that the triggering pulling rope 25 is loosened, the tightening block 18 loses the pulling force of the triggering pulling rope 25 and then moves downwards to the tightening elastic transmission belt 56 under the action of the pushing force of the tightening compression spring 19, at the moment, the first bevel gear 15 rotates to drive the left cam rotating shaft 86 to rotate through the elastic transmission belt 56, the left cam rotating shaft 86 rotates to drive the right cam rotating shaft 86 to rotate through the left and right transmission belts 85, the cam rotating shaft 86 rotates to drive the cam 22 to rotate, thereby the promotion is equipped with the outward movement of detritus basin 52 of detritus, after left side detritus basin 52 outward movement to leaving clamp plate 47, the piece 18 that tightens resets under the pulling force effect of stay cord 49 often, elasticity drive belt 56 no longer transmits, cam ejector pad 24 resets under the pulling force effect of cam extension spring 23, detritus basin 52 in the detritus basin 53 moves forward to detritus basin sliding chamber 46 in the thrust effect of push pedal compression spring 54 and push pedal 55, realize the automatic filling of detritus basin 52, thereby accomplish the automatic grouping of detritus.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a detritus logging is with automatic sampling grouping device of adjustable sample interval, includes the main part case, its characterized in that: the main box is internally provided with a reciprocating sampling cavity with an upward opening, the lower side of the reciprocating sampling cavity is communicated with a slider guide rail, the lower side of the reciprocating sampling cavity is communicated with a rock debris discharge cavity with a downward opening and positioned at the rear side of the slider guide rail, the lower side of the slider guide rail is communicated with a turntable cavity, the lower side of the turntable cavity is provided with a rack cavity, the lower side of the rack cavity is provided with an adjusting cavity, the left side of the adjusting cavity is provided with a power steering cavity, the right end wall of the power steering cavity is in rotationally matched connection with an oblique transmission shaft extending to the adjusting cavity from the upper right side, the right end of the oblique transmission shaft is fixedly connected with a conical friction wheel, the upper end wall of the adjusting cavity is in rotationally matched connection with a rotating speed adjusting shaft extending to the rack cavity and extending to the adjusting cavity from the lower side, and a spline shaft positioned in, the friction wheel abutted with the conical friction wheel is fixedly connected to the spline shaft, a driving lever through cavity with a forward opening is communicated with the front side of the adjusting cavity, the tail end of the lower side of the spline shaft is connected with a driving lever which extends forwards and penetrates through the driving lever through cavity to the outside in a rotating fit mode, an elastic pulley cavity is arranged on the lower side of the adjusting cavity, a left pulley cavity and a right pulley cavity are arranged on the lower side of the elastic pulley cavity, cam cavities are symmetrically arranged on the left and right sides of the lower sides of the left and right pulley cavities, a rock debris basin sliding cavity with an outward opening is communicated with the outer side of each cam cavity, and a rock debris basin sliding cavity; power steering chamber upside be equipped with main part case fixed connection's motor, power steering chamber up end in-plane normal running fit be connected with extend to upwards with under the motor terminal surface fixed connection and downwardly extending to first bevel gear in the elastic belt wheel intracavity, power steering intracavity be equipped with first bevel gear fixed connection's second bevel gear, power steering intracavity still be equipped with oblique transmission shaft fixed connection and with second bevel gear engaged's driving shaft, control in the band pulley chamber lower extreme wall bilateral symmetry normal running fit be connected with extend to about band pulley intracavity and downwardly extending to the cam shaft in the cam intracavity, left side the cam shaft upwards extends to in the elastic belt wheel intracavity, power fit is connected with between the cam shaft and is located about the drive belt in the band pulley intracavity, first bevel gear and left side power fit be connected with between the cam shaft and are located elastic belt wheel The elastic transmission belt is arranged in the cavity, the upper side of the elastic wheel cavity is communicated with a tightening block cavity, a tightening block capable of tightening the elastic transmission belt is connected in the tightening block cavity in a sliding fit mode, and a tightening compression spring is fixedly connected between the upper end face of the tightening block and the upper end wall of the tightening block cavity; the rock debris tightening mechanism is characterized in that a cam is arranged in the cam cavity, the cam is positioned in the cam cavity and fixedly connected with the cam rotating shaft, a cam push block which is positioned on the outer side of the cam and abutted against the cam is connected in the cam cavity in a sliding fit manner, a cam extension spring is fixedly connected between the inner end surface of the cam push block and the inner end wall of the cam cavity, a push plate is connected in the rock debris basin in a sliding fit manner, a push plate compression spring is fixedly connected between the rear end surface of the push plate and the rear end wall of the rock debris basin, a plurality of rock debris basins positioned on the front side of the push plate are arranged in the rock debris basin, a press plate cavity corresponding to the rock debris basin on the left side is communicated and arranged on the lower side of the rock debris basin sliding cavity on the left side, a press plate is connected in the press plate cavity in a sliding fit manner, a press plate compression spring is fixedly connected between, a water storage cavity is arranged on the upper side of the right debris basin sliding cavity, a water pump is fixedly connected in the lower end wall of the water storage cavity, and a water feeding cavity communicated with the right debris basin sliding cavity is communicated with the lower side of the water pump; an incomplete gear is arranged in the rack cavity, the incomplete gear is positioned in the rack cavity and is fixedly connected with the rotating speed regulating shaft, a rack which is positioned at the rear side of the incomplete gear and can be meshed with the incomplete gear is connected in the rack cavity in a sliding fit manner, a rack compression spring is fixedly connected between the right end face of the rack and the right end wall of the rack cavity, a one-way rotating shaft which extends upwards into the rotary table cavity and downwards into the rack cavity is connected in the upper end wall of the rack cavity in a rotating fit manner, the one-way rotating shaft is positioned at the front side of the rack, a one-way bearing is fixedly connected at the tail end of the lower side of the one-way rotating shaft, a transmission gear meshed with the rack is connected on the one-way bearing in a rotating fit manner, a rotary table is fixedly connected at the tail end of, the tail end of the upper side of the cylindrical pin is connected with a connecting rod which extends rightwards in a rotating fit mode; a slide block is arranged in the slide block guide rail, the slide block is positioned in the slide block guide rail and is connected with the slide block guide rail in a sliding fit way, the right end of the connecting rod is hinged with the left end surface of the sliding block, the upper end surface of the sliding block is fixedly connected with the connecting rod positioned in the reciprocating sampling cavity, the tail ends of the left side and the right side of the upper end surface of the connecting rod are symmetrically and fixedly connected with a receiving box, an inclined rock debris cavity with an upward opening is arranged in the receiving box, the tail end of the outer side of the lower end face of the inclined rock debris cavity is communicated with a rock debris through cavity with a downward opening, the outer side of the rock debris through cavity is communicated with a magnetic through cavity with an outward opening, the inner side of the rock debris through cavity is communicated with a baffle cavity corresponding to the magnetic through cavity, a magnetic baffle is connected in the baffle cavity in a sliding fit manner, a baffle plate compression spring is fixedly connected between the inner end surface of the magnetic baffle plate and the inner end wall of the baffle plate cavity; the reciprocating sampling cavity is internally provided with a bar magnet which is bilaterally and fixedly connected with the left and right end walls of the reciprocating sampling cavity and corresponds to the magnetic through cavity, the lower end wall of the reciprocating sampling cavity is bilaterally and fixedly connected with a feeding pipe which can correspond to the rock debris through cavity, the feeding pipe is internally provided with a feeding cavity with an opening extending upwards and downwards into the main box, the lower side of the feeding cavity is communicated with a rock debris collecting cavity, the lower side of the rock debris collecting cavity is bilaterally and symmetrically communicated with a rock debris two-divided cavity which extends downwards to be communicated with the rock debris basin sliding cavity, the left side of the rock debris two-divided cavity is communicated with a trigger block cavity, the lower side of the trigger block cavity is communicated with a magnetic slide block cavity, the trigger block is connected in a sliding fit manner in the trigger block cavity, the lower end surface of the trigger block is fixedly connected with a trigger block magnet, and a trigger compression spring is fixedly connected between the, the magnetic sliding block is connected with a magnetic sliding block in a sliding fit mode in the magnetic sliding block cavity, a sliding block compression spring is fixedly connected between the lower end face of the magnetic sliding block and the lower end wall of the magnetic sliding block cavity, and a trigger pull rope is fixedly connected with the other end of the lower end face of the magnetic sliding block and the upper end face of the tensioning block.