CN113075213A

CN113075213A - Carbonate secondary pore composition detection protection device

Info

Publication number: CN113075213A
Application number: CN202110391570.8A
Authority: CN
Inventors: 徐文礼; 文华国; 霍金钢; 徐永烨
Original assignee: Chengdu Univeristy of Technology
Current assignee: Chengdu Univeristy of Technology
Priority date: 2021-04-12
Filing date: 2021-04-12
Publication date: 2021-07-06
Anticipated expiration: 2041-04-12
Also published as: CN113075213B

Abstract

The invention discloses a carbonate secondary pore composition detection protection device which comprises a detection rod, wherein a cylindrical adjusting groove is formed in the center of the detection rod, an adjusting rod is rotatably connected in the adjusting groove, a protection groove is formed in one end of the detection rod, one end of the adjusting rod extends into the protection groove, a first rotating seat is fixedly connected to one end, located in the protection groove, of the adjusting rod, and a rotating head is rotatably connected to the first rotating seat. Has the advantages that: according to the invention, after the detection rod reaches a preset position, the rotating head on the adjusting rod is pushed to move towards the outside of the protection groove, the magnetic core has magnetic attraction on the iron sliding blocks in the sliding grooves at two sides, and the two baffles rotate through the transmission of meshing of the straight rack and the gear on the rotating shaft, so that the camera can move to the outside of the protection groove to shoot secondary pores, and meanwhile, the searchlights on the baffles brighten the pores, thereby facilitating the observation of an observer.

Description

Carbonate secondary pore composition detection protection device

Technical Field

The invention relates to the technical field of detection equipment, in particular to a carbonate secondary pore component detection protection device.

Background

The secondary pores are pores formed by dissolution, recrystallization, cracking and the like in the diagenesis process after the sediment is deposited, and the secondary pores are mainly dissolved products taking carbonate minerals as main components. The soluble species that form such dissolved pores can take three structural forms: deposited species, autogenous cement, and autogenous cross-products.

The existing secondary pore component detection device is simple in structure, generally exposes a camera and other detection equipment, and has the characteristics that the pore is large, the single shape is irregular, and a plurality of bulges are arranged in the pore; therefore, a carbonate secondary pore component detection protection device is provided.

Disclosure of Invention

The invention aims to solve the problems that a detection device in the prior art is simple in structure and equipment such as a camera is lack of protection, and provides a carbonate secondary pore component detection protection device.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a protection device is surveyed to carbonate secondary pore composition, includes the gauge rod, the columniform adjustment tank has been seted up in the central point of gauge rod puts, the adjustment tank internal rotation is connected with an adjusting lever, the protection tank has been seted up to the one end of gauge rod, the one end of adjusting the pole extends to the protection tank in, it is located the first seat that rotates of protection inslot one end fixedly connected with, first seat that rotates is connected with a rotation head, the one side fixedly connected with camera of adjusting the pole is kept away from to the rotation head, the one end that the gauge rod is located the protection tank is equipped with from the protection device that opens and shuts, the outer pole of gauge rod is closed and is equipped with composition sampling mechanism.

In foretell secondary pore composition of carbonate surveys protection device, run through sliding connection in the regulation pole and have a control lever, the cross section of control lever is the rectangle, the head that rotates is located first rotation seat one side fixedly connected with second and rotates the seat, the one end that the control lever is located the protection groove rotates the seat with the second and rotates and be connected, the coaxial welding of one end that the head was kept away from to the regulation pole has the adjusting knob, the one end fixedly connected with control panel that the head was rotated is kept away from to the control lever.

In foretell protection device is surveyed to carbonate secondary pore composition, protection device includes two baffles from opening and shutting, the gauge rod is located the notch both sides in protection groove and has respectively seted up the rotation groove, every the rotation inslot internal rotation is connected with a pivot, every the one end fixed connection of pivot and a baffle, respectively seted up the spout on the both sides cell wall in protection groove, every sliding connection has the briquetting in the spout, logical groove has been seted up to the bottom cell wall of spout, the bottom fixedly connected with spur rack of briquetting, every coaxial welding has the gear in the pivot, logical groove and gear engagement are rushed to the lower extreme of spur rack, every the bottom surface fixedly connected with spring of briquetting, the spring is kept away from the one end of briquetting and the cell wall fixed connection of spout.

In the above carbonate secondary pore component detection and protection device, a magnetic core is embedded in the rotating head, and an iron sliding block is connected in each sliding groove in a sliding manner.

In the above device for detecting and protecting the secondary pore components of carbonate, a searchlight is embedded in the outer wall of each baffle, and the camera and the searchlight are connected with an external power supply through a lead.

In the above carbonate secondary pore composition detection protection device, the composition sampling mechanism includes a plurality of rotating plates, a plurality of grooves are equidistantly formed in the rod wall of the detection rod, two side groove walls below each groove are rotatably connected with one rotating plate through a pin shaft, a collecting groove is formed in the bottom groove wall of each groove, a discharge port is formed in the position of the detection rod right below each groove, and a stopper is arranged at each discharge port.

In the carbonate secondary pore composition detection and protection device, a magnetic plate is embedded at the upper end of each rotating plate, a plurality of permanent magnets are embedded in the same side rod wall of the adjusting rod at equal intervals and correspond to the magnetic plates on the plurality of rotating plates, and a torsional spring is arranged at the rotating connection position of a pin shaft of each rotating plate.

In the above carbonate secondary pore composition detection protection device, each scraper is fixedly connected to the upper end portion of one side of the rotating plate, a first guide groove is formed in one side, close to the adjusting rod, of each scraper, a second guide groove is formed in the lower half portion of one side, close to the adjusting rod, of each rotating plate, and the first guide groove and the second guide groove are communicated with each other.

Compared with the prior art, the invention has the advantages that:

1. when the device is used, the detection rod penetrates into the secondary pore, the two baffles seal the protection groove to protect the camera, the protrusion on the pore wall is prevented from colliding with the camera in the process that the detection rod penetrates into the secondary pore, the camera is effectively protected, and the service life of the detection device is prolonged.

2. According to the invention, after the detection rod reaches a preset position, the rotating head on the adjusting rod is pushed to move towards the outside of the protection groove, the magnetic core has magnetic attraction on the iron sliding blocks in the sliding grooves at two sides, and the two baffles rotate through the transmission of meshing of the straight rack and the gear on the rotating shaft, so that the camera can move to the outside of the protection groove to shoot secondary pores, and meanwhile, the searchlights on the baffles brighten the pores, thereby facilitating the observation of an observer.

3. When an observer needs to adjust the angle of the camera, the control panel can be pushed firstly, so that the control rod slides towards the direction of the rotating head, an angle is formed between the rotating head and the detecting rod, then the adjusting knob is rotated to rotate the adjusting rod, so that the direction of the camera with a certain angle is changed, the camera can be adjusted by the observer more conveniently;

4. after the detection is completed, the adjusting rod is rotated to enable the adjusting rod to rotate, so that the permanent magnet blocks can generate a magnetic repulsion force on the magnetic plate at the upper end of the rotating plate, the rotating plate is pushed to rotate outwards to be abutted against the pore wall, then the whole detecting rod is rotated, the scraper is enabled to be in contact with the secondary pore wall, and the carbonate powder is scraped out to be collected, so that the efficiency is improved, and the subsequent research is facilitated.

Drawings

FIG. 1 is a schematic structural diagram of a carbonate secondary pore component detection protection device according to the present invention;

FIG. 2 is a schematic structural diagram of a protective tank part in the carbonate secondary pore component detection protective device provided by the invention;

FIG. 3 is an enlarged schematic view of the detection and protection device for the secondary pore components of carbonate according to the present invention at the A point;

FIG. 4 is an enlarged schematic view of the position B of the carbonate secondary pore component detection protection device provided by the present invention;

FIG. 5 is a schematic structural diagram of a rotating plate part in the carbonate secondary pore component detection and protection device provided by the invention.

In the figure: the device comprises a detection rod 1, an adjusting groove 2, an adjusting rod 3, a protecting groove 4, a first rotating seat 5, a rotating head 6, a control rod 7, a second rotating seat 8, a camera 9, an adjusting button 10, a control panel 11, a rotating groove 12, a rotating shaft 13, a baffle 14, a sliding groove 15, a sliding block 16 made of iron, a magnetic core 17, a pressing block 18, a through groove 19, a straight rack 20, a gear 21, a spring 22, a searchlight 23, a groove 24, a rotating plate 25, a collecting groove 26, a discharge hole 27, a plug block 28, a magnetic plate 29, a permanent magnetic block 30, a scraper 31, a first guide groove 321 and a second guide groove 322.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are only for illustrative purposes and are not intended to limit the scope of the present invention.

Examples

Referring to fig. 1-5, a carbonate secondary pore composition detection protection device, including probe rod 1, cylindrical adjustment tank 2 has been seted up in probe rod 1's central point puts, 2 internal rotations in adjustment tank are connected with an adjusting pole 3, protection groove 4 has been seted up to probe rod 1's one end, the one end of adjusting pole 3 extends to in the protection groove 4, adjust pole 3 and be located the first rotation seat 5 of one end fixedly connected with in protection groove 4, first rotation seat 5 rotates and is connected with a rotor 6, rotor 6 keeps away from one side fixedly connected with camera 9 of adjusting pole 3, probe rod 1 is located the one end in protection groove 4 and is equipped with the protection device that opens and shuts certainly, the outer pole of probe rod 1 closes and is equipped with composition sampling mechanism.

Run through sliding connection and have a control lever 7 in adjusting pole 3, the cross section of control lever 7 is the rectangle, it is located first 5 one side fixedly connected with second rotation seats 8 to rotate head 6, the one end that control lever 7 is located protection slot 4 rotates with the second and is connected, the one end coaxial welding who keeps away from rotation head 6 of adjusting pole 3 has adjusting knob 10, adjusting knob 10 also can the axial slip when can making to adjust pole 3 pivoted, the one end fixedly connected with control panel 11 that rotates head 6 is kept away from to control lever 7, control panel 11 only can make 7 axial slip of control lever.

The self-opening and self-closing protection device comprises two baffles 14, two rotary grooves 12 are respectively arranged on two sides of a notch of a protection groove 4 of a detection rod 1, a rotary shaft 13 is connected in each rotary groove 12 in a rotating manner, each rotary shaft 13 is fixedly connected with one end of one baffle 14, sliding grooves 15 are respectively arranged on two side groove walls of the protection groove 4, a pressing block 18 is connected in each sliding groove 15 in a sliding manner, a through groove 19 is arranged on the bottom groove wall of each sliding groove 15, a straight rack 20 is fixedly connected to the bottom of each pressing block 18, a gear 21 is coaxially welded on each rotary shaft 13, the lower end of each straight rack 20 runs through the through groove 19 to be meshed with the gear 21, a spring 22 is fixedly connected to the bottom surface of each pressing block 18, one end, far away from the pressing block 18, of the spring 22 is fixedly connected with the groove wall of the sliding groove 15, when the spring 22 is in, the camera 9 in the protection groove 4 is protected, the magnetic core 17 is embedded into the rotating head 6, an iron sliding block is connected into each sliding groove 15 in a sliding mode, the searchlight 23 is embedded into the outer wall of each baffle 14, and the camera 9 and the searchlight 23 are connected with an external power supply through wires.

The component sampling mechanism comprises a plurality of rotating plates 25, a plurality of grooves 24 are equidistantly formed in the rod wall of a detection rod 1, two side groove walls of each groove 24 below are rotatably connected with one rotating plate 25 through a pin shaft, a collecting groove 26 is formed in the bottom groove wall of each groove 24, a discharge hole 27 is formed in the detection rod 1 right below each groove 24, a plug 28 is arranged at each discharge hole 27, a magnetic plate 29 is embedded at the upper end of each rotating plate 25, a plurality of permanent magnets 30 are equidistantly embedded in the same rod wall of an adjusting rod 3 and correspond to the magnetic plates 29 on the plurality of rotating plates 25, a torsional spring is arranged at the rotating connection position of the pin shaft of each rotating plate 25, the torsional spring is in a loose state when the rotating plates 25 are in a vertical state, the permanent magnets 30 are close to the rotating bar 25 when the adjusting rod 3 rotates, the magnetism of one side of each permanent magnet 30 is repelled with the magnetism of the magnetic plates 29, a scraper 31 is fixedly connected to the upper, the scraper 31 is provided with a first guide groove 321 on one side close to the adjusting rod 3, a second guide groove 322 on the lower half part of one side of the rotating plate 25 close to the adjusting rod 3, and the first guide groove 321 and the second guide groove 322 are communicated with each other.

In the invention, when in use, a searchlight 23 and a camera 9 on a probe rod 1 are electrified, then the probe rod 1 is positioned at one end of a protective groove 4 and extends into a secondary carbonate pore, a regulating button 10 does not need to be rotated in the process of extending, at the moment, two baffles 14 seal the protective groove 4 to protect the camera 9, the protrusion on the pore wall is prevented from colliding with the camera head in the process of extending the probe rod 1 into the secondary carbonate pore, the camera 9 is effectively protected, the service life of the detection device is prolonged, after the probe rod 1 reaches a preset position, a rotating head 6 on a regulating rod 3 is pushed to move towards the outside of the protective groove 4, because a magnetic core 17 has magnetic attraction on iron sliding blocks 16 in sliding grooves 15 at two sides in the moving process of the rotating head 6, the iron sliding blocks 16 are driven to slide downwards together, the iron sliding blocks 16 extrude a pressing block 18, and push the pressing block 18 and a straight rack 20 to slide downwards, through the transmission of spur rack 20 and the gear 21 meshing on the pivot 13, make two baffles 14 take place to rotate, open protection groove 16, later continue to promote the regulation pole 3 and slide, make camera 9 move outside protection groove 4, shoot secondary pore, the picture that camera 9 was shot is transmitted to on the display screen, searchlight 23 on baffle 14 adds lustre to in the pore simultaneously, be convenient for observer's observation, after finishing using, camera 9 retracts and makes in protection groove 4, iron slider 16 is slided and is not being had pressure to briquetting 18, under the effect of spring 22, briquetting 18 gets back to original position, will make baffle 14 reclose, have automatic opening and closed effect.

When the observer needs to adjust the angle of the camera 9, the control panel 11 can be pushed first, the control rod 7 slides towards the direction of the rotating head 6, so that an angle is formed between the rotating head 6 and the detecting rod 1, then the adjusting rod 3 rotates by rotating the adjusting button 10, the direction of the camera 9 with a certain angle is changed, the camera 9 can be adjusted by itself, and the use detection of the observer can be more convenient.

After the detection is completed, when a sample needs to be taken from the hole wall of the secondary hole, the rotary adjusting knob 10 is rotated, the adjusting rod 3 is rotated to rotate one side of the permanent magnet block 30 on the adjusting rod 3 to one side of the rotating plate 25, at the moment, the permanent magnet block 30 has magnetic repulsion to the magnetic plate 29 at the upper end of the rotating plate 25, the upper end of the rotating plate 25 is pushed to rotate outwards to be abutted against the hole wall, then, the whole detecting rod 1 is rotated, the scraper 31 is contacted with the secondary hole wall, the carbonate powder is scraped from the hole wall, the scraped powder flows into the collecting groove 26 through the first guide groove 321 and the second guide groove 322, as the rotating plates 25 with different heights are arranged on the detecting rod 1, the secondary hole powder with different depths is collected in each collecting groove 26, the collection of the powder is completed once, the efficiency is improved, and the subsequent research is facilitated.

Although terms such as the detection rod 1, the adjustment groove 2, the adjustment rod 3, the protection groove 4, the first rotation seat 5, the rotation head 6, the control rod 7, the second rotation seat 8, the camera 9, the adjustment knob 10, the control plate 11, the rotation groove 12, the rotation shaft 13, the baffle 14, the sliding groove 15, the iron slider 16, the magnetic core 17, the pressing block 18, the through groove 19, the spur rack 20, the gear 21, the spring 22, the searchlight 23, the groove 24, the rotation plate 25, the collection groove 26, the discharge hole 27, the plug 28, the magnetic plate 29, the permanent magnet 30, the scraper 31, the first guide groove 321, the second guide groove 322, and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. A carbonate secondary pore composition detection protection device comprises a detection rod (1), it is characterized in that a cylindrical adjusting groove (2) is arranged in the central position of the detecting rod (1), an adjusting rod (3) is rotationally connected in the adjusting groove (2), a protecting groove (4) is arranged at one end of the detecting rod (1), one end of the adjusting rod (3) extends into the protective groove (4), one end of the adjusting rod (3) positioned in the protective groove (4) is fixedly connected with a first rotating seat (5), the first rotating seat (5) is rotatably connected with a rotating head (6), one side of the rotating head (6) far away from the adjusting rod (3) is fixedly connected with a camera (9), one end of the detection rod (1) located in the protection groove (4) is provided with a self-opening and self-closing protection device, and an outer rod of the detection rod (1) is provided with a component sampling mechanism in a closed mode.

2. The carbonate secondary pore composition detection and protection device according to claim 1, wherein a control rod (7) is slidably connected in the adjusting rod (3) in a penetrating manner, the cross section of the control rod (7) is rectangular, the rotating head (6) is fixedly connected with a second rotating seat (8) on one side of the first rotating seat (5), one end of the control rod (7) located in the protection groove (4) is rotatably connected with the second rotating seat (8), an adjusting button (10) is coaxially welded on one end of the adjusting rod (3) far away from the rotating head (6), and one end of the control rod (7) far away from the rotating head (6) is fixedly connected with a control plate (11).

3. The carbonate secondary pore composition detection and protection device according to claim 2, wherein the self-opening and self-closing protection device comprises two baffles (14), the detection rod (1) is provided with a rotary groove (12) at each of two sides of the notch of the protection groove (4), each rotary groove (12) is rotatably connected with a rotary shaft (13), each rotary shaft (13) is fixedly connected with one end of one baffle (14), each sliding groove (15) is provided at each of two side walls of the protection groove (4), each sliding groove (15) is slidably connected with a pressing block (18), the bottom groove wall of each sliding groove (15) is provided with a through groove (19), the bottom of each pressing block (18) is fixedly connected with a straight rack (20), each rotary shaft (13) is coaxially welded with a gear (21), and the lower end of each straight rack (20) runs through the through groove (19) to be engaged with the gear (21), the bottom surface of each pressing block (18) is fixedly connected with a spring (22), and one end, far away from the pressing blocks (18), of each spring (22) is fixedly connected with the groove wall of the corresponding sliding groove (15).

4. A carbonate secondary pore composition detection and protection device according to claim 3, characterized in that a magnetic core (17) is embedded in the rotating head (6), and an iron sliding block is slidably connected in each sliding groove (15).

5. The device for detecting and protecting secondary carbonate pore components according to claim 4, wherein a searchlight (23) is embedded on the outer wall of each baffle (14), and the camera (9) and the searchlight (23) are connected with an external power supply through leads.

6. The carbonate secondary pore composition detection and protection device according to claim 1, wherein the composition sampling mechanism comprises a plurality of rotating plates (25), a plurality of grooves (24) are formed in the rod wall of the detection rod (1) at equal intervals, two side groove walls below each groove (24) are rotatably connected with one rotating plate (25) through a pin shaft, a collecting groove (26) is formed in the bottom groove wall of each groove (24), a discharge hole (27) is formed in the detection rod (1) at a position right below each groove (24), and a plug block (28) is arranged at each discharge hole (27).

7. The carbonate secondary pore composition detection and protection device according to claim 6, wherein a magnetic plate (29) is embedded at the upper end of each rotating plate (25), a plurality of permanent magnetic blocks (30) are embedded in the same side rod wall of the adjusting rod (3) at equal distances and correspond to the magnetic plates (29) on the plurality of rotating plates (25), and a torsional spring is arranged at the rotating connection position of the pin shaft of each rotating plate (25).

8. The carbonate secondary pore composition detection and protection device according to claim 7, wherein a scraper (31) is fixedly connected to an upper end portion of one side of each rotating plate (25), a first guide groove (321) is formed in one side of the scraper (31) close to the adjusting rod (3), a second guide groove (322) is formed in a lower half portion of one side of the rotating plate (25) close to the adjusting rod (3), and the first guide groove (321) and the second guide groove (322) are communicated with each other.