CN205246555U - Improved generation coregraph is like high resolution scanner - Google Patents

Abstract

The utility model relates to an improved generation coregraph is like high resolution scanner belongs to geophysics and information storage technology field. It comprises horizontal migration mechanism, roller horizontal migration mechanism, roller rotary mechanism, mesa rotary mechanism etc. And the horizontal guide rail mechanism of installation on the stand adorns with perpendicular escalator structure through the slider connecting block and connects, on constructing, installs perpendicular escalator rock core image acquisition subassembly, roller horizontal migration mechanism, roller rotary mechanism and mesa rotary mechanism are installed to equipment base lower part. The two velamen rollers of roller horizontal migration mechanism through skin roll chock horizontal installation pass through the roll adjustment hold -in range to be connected with roll adjustment synchronous pulley, forms synchronous motion, mesa rotary mechanism is installed to the roller below. The mesa is rotatable, does benefit to the irregular rock core of scanning and retains information, is suitable for in the work of any environment occasion, the problem of current fixed rock core mesa can't rotate and easily cause scanning to omit, be unfavorable for that open -air environment collects and save geology rock core image information is solved.

Description

A kind of modified core image high-resolution acquisition instrument

Technical field

The utility model relates to a kind of modified core image high-resolution acquisition instrument, belongs to geophysics and information storage technical field.

Background technology

Core image high-resolution acquisition instrument adopts the camera of special integrated LED lamp, resolution ratio is high, in the time rock core being carried out to unenhanced and rolling scanning switching, all without regulating light-source angle and direction, and can directly measure processing to image, nowadays become geologist's good assistant. But in actual use, the work top of current a few money core image high-resolution acquisition instrument is fixed, cannot rotate, irregular rock core is placed on work top, can only rely on vertical automatic lifting mechanism and horizontal mobile mechanism to regulate the camera of core image acquisition assembly to carry out image information collecting, easily cause scanning to omit, bring incomplete shortcoming to information storage in kind, be especially unfavorable for collection and the storage of wild environment to geology rock core information. Therefore, research and develop a existing core image high-resolution acquisition instrument deficiency that makes up, it is more attained in perfection, the modified core image high-resolution acquisition instrument of more convenient operation is necessary.

Summary of the invention

The purpose of this utility model is: provide a kind of rock core placed mesa rotatable, be beneficial to comprehensive, the each angle scanning of irregular rock core and retain image information, be useful in the work of any environment occasion, promote geological research person's operating efficiency, easy to operate modified core image high-resolution acquisition instrument; Solving prior art fixed rock core placed mesa cannot rotate, and easily causes scanning to omit, and is unfavorable for the collection to geology core image information and the problem of storage under wild environment.

The utility model is to realize by the following technical solutions above-mentioned purpose:

This modified core image high-resolution acquisition instrument is made up of horizontal mobile mechanism, vertical automatic lifting mechanism, core image acquisition assembly, roller horizontal mobile mechanism, roller rotating mechanism, table top rotating mechanism, column, plant bottom case, it is characterized in that: the symmetrical column that is provided with in plant bottom case top, column upper end is provided with horizontal mobile mechanism, and horizontal mobile mechanism is connected with vertical automatic lifting mechanism by slide block, slide block contiguous block; Core image acquisition assembly is installed in vertical automatic lifting mechanism; Plant bottom case bottom is provided with roller horizontal mobile mechanism, roller rotating mechanism and table top rotating mechanism, and table top rotating mechanism is positioned at the below of roller horizontal mobile mechanism and roller rotating mechanism.

Described horizontal mobile mechanism comprises horizontal guide rail, Timing Belt one, slide block, slide block contiguous block, synchronous wheeled box, gear reduction unit, drive motors one, horizontal guide rail is arranged on column, synchronous wheeled box is equipped with in one end of horizontal guide rail, the other end is equipped with gear reduction unit and drive motors one, and horizontal guide rail is equipped with slide block and slide block contiguous block.

Described vertical automatic lifting mechanism comprises laser range finder, riser guide, drive motors two, elevating screw, nut, shaft coupling; Elevating screw is installed on riser guide, and elevating screw one end is provided with shaft coupling, and drive motors two is connected with elevating screw by shaft coupling, and elevating screw is connected with core image acquisition assembly by nut.

Described core image acquisition assembly comprises camera, the pallet of integrated LED lamp; Camera, the laser range finder of integrated LED lamp are installed on pallet.

Described roller horizontal mobile mechanism comprises rubber roll shaft bearing, roller, move horizontally guide rail, left-right rotary screw mandrel, feed screw nut, miniature reducer, micromachine, roll adjustment Timing Belt, roll adjustment synchronous pulley, cross bar, bearing block slide block, the guide rail that moves horizontally with bearing block slide block is installed on the symmetrical cross bar being connected with core tray table top, rubber roll shaft bearing is arranged on respectively on bearing block slide block, one end of one side cross bar is provided with miniature reducer, there is micromachine one end of miniature reducer, the other end is connected with left-right rotary screw mandrel, one end of opposite side cross bar is directly connected with left-right rotary screw mandrel by bearing, roll adjustment synchronous pulley is arranged on respectively the other end of both sides left-right rotary screw mandrel, be connected to form and be synchronized with the movement by roll adjustment Timing Belt.

Described roller rotating mechanism comprises synchronous pulley, Timing Belt two, decelerator, motor, motor is equipped with in the below of one side roller, motor is connected with the decelerator with synchronous pulley, and the synchronous pulley on decelerator is connected by Timing Belt two with the synchronous pulley on a roller.

Described table top rotating mechanism comprises alignment pin, pin-and-hole, approaches piece one, rotating shaft one, approach piece two, proximity transducer, core tray table top, rotating shaft two, deceleration device; The left side of plant bottom case is provided with deceleration device, and roller horizontal mobile mechanism, roller rotating mechanism and table top rotating mechanism are connected to form entirety by table top and connector, and is connected with plant bottom case with rotating shaft two by rotating shaft one; Core tray table top right side is provided with proximity transducer, is provided with and approaches piece one, approaches piece two on plant bottom case, and its installation site is corresponding with proximity transducer respectively.

The utility model beneficial effect is compared with prior art

This modified core image high-resolution acquisition instrument is realized the rotation of core tray table top by roller rotating mechanism, table top rotating mechanism, can be directly to rock core and core tray switches and Multidirectional sweeping, be beneficial to comprehensive, the each angle scanning of irregular rock core and retain image information, be applicable to the rock core scanning of any occasion that comprises field extreme environment, easy to operate, greatly improve geological research person's operating efficiency. Having solved the fixed rock core placed mesa of prior art cannot rotate, and easily causes scanning to omit, and is unfavorable for the collection to geology core image information and the problem of storage under wild environment.

Brief description of the drawings

Fig. 1 is a kind of modified core image high-resolution acquisition instrument front view;

Fig. 2 is a kind of modified core image high-resolution acquisition instrument left view;

Fig. 3 is the postrotational left view of a kind of modified core image high-resolution acquisition instrument.

In figure: 1, horizontal guide rail mechanism, 2, vertical automatic lifting mechanism, 3, core image acquisition assembly, 4, roller horizontal mobile mechanism, 5, roller rotating mechanism, 6, table top rotating mechanism, 7, column, 8, plant bottom case;

101, horizontal guide rail, 102, Timing Belt one, 103, slide block, 104, slide block contiguous block, 105, synchronous wheeled box, 106, gear reduction unit, 107, drive motors one;

201, laser range finder, 202, riser guide, 203, drive motors two, 204, elevating screw, 205, nut, 206, shaft coupling;

301, the camera of integrated LED lamp, 302, pallet;

401, rubber roll shaft bearing, 402, roller, 403, move horizontally guide rail, 404, left-right rotary screw mandrel screw mandrel, 405, feed screw nut, 406, miniature reducer, 407, micromachine, 408, roll adjustment Timing Belt, 409, roll adjustment synchronous pulley, 410, cross bar, 411, bearing block slide block;

501, Timing Belt two, 502, synchronous pulley, 503, decelerator, 504, motor.

601, alignment pin, 602, pin-and-hole, 603, approach piece one, 604, rotating shaft one, 605, approach piece two, 606, proximity transducer, 607, core tray table top, 608, rotating shaft two, 609, deceleration device.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail:

This modified core image high-resolution acquisition instrument is made up of horizontal mobile mechanism 1, vertical automatic lifting mechanism 2, core image acquisition assembly 3, roller horizontal mobile mechanism 4, roller rotating mechanism 5, table top rotating mechanism 6, column 7, plant bottom case 8, the symmetrical column 7 that is provided with in plant bottom case 8 tops, column 7 upper ends are provided with horizontal guide rail mechanism 1, and horizontal guide rail mechanism 1 is by slide block 103, slide block contiguous block 104 and 2 attachings of vertical automatic lifting mechanism; Core image acquisition assembly 3 is installed in vertical automatic lifting mechanism 2; Plant bottom case 8 bottoms are provided with roller horizontal mobile mechanism 4, roller rotating mechanism 5 and table top rotating mechanism 6, and table top rotating mechanism 6 is positioned at the below of roller horizontal mobile mechanism 4 and roller rotating mechanism 5.

Described horizontal mobile mechanism 1 comprises horizontal guide rail 101, Timing Belt 1, slide block 103, slide block contiguous block 104, synchronous wheeled box 105, gear reduction unit 106, drive motors 1, horizontal guide rail 101 is arranged on column 7, synchronous wheeled box 105 is equipped with in one end of horizontal guide rail 101, the other end is equipped with gear reduction unit 106 and drive motors 1, and horizontal guide rail 101 is equipped with slide block 103 and slide block contiguous block 104.

Described vertical automatic lifting mechanism 2 comprises laser range finder 201, riser guide 202, drive motors 2 203, elevating screw 204, nut 205, shaft coupling 206; Elevating screw 204 is installed on riser guide 202, and elevating screw 204 one end are provided with shaft coupling 206, and drive motors 2 203 is connected with elevating screw 204 by shaft coupling 206, and elevating screw 204 is connected with core image acquisition assembly 3 by nut 205.

Described core image acquisition assembly 3 comprises camera 301, the pallet 302 of integrated LED lamp; Camera 301, the laser range finder 201 of integrated LED lamp are installed on pallet 302.

Described roller horizontal mobile mechanism 4 comprises rubber roll shaft bearing 401, roller 402, move horizontally guide rail 403, left-right rotary screw mandrel 404, feed screw nut 405, miniature reducer 406, micromachine 407, roll adjustment Timing Belt 408, roll adjustment synchronous pulley 409, cross bar 410, bearing block slide block 411, on the symmetrical cross bar 410 being connected with core tray table top 607, be provided with and move horizontally guide rail 403 with bearing block slide block 411, rubber roll shaft bearing 401 is arranged on respectively on bearing block slide block 411, one end of one side cross bar 410 is provided with miniature reducer 406, there is micromachine 407 one end of miniature reducer 406, the other end is connected with left-right rotary screw mandrel 404, one end of opposite side cross bar 410 is directly connected with left-right rotary screw mandrel 404 by bearing, roll adjustment synchronous pulley 409 is arranged on respectively the other end of both sides left-right rotary screw mandrel 404, be connected to form and be synchronized with the movement by roll adjustment Timing Belt 408.

Described roller rotating mechanism 5 comprises synchronous pulley 501, Timing Belt 2 502, decelerator 503, motor 504, motor 504 is equipped with in the below of one side roller 402, motor 504 is connected with the decelerator 503 with synchronous pulley 501, and the synchronous pulley 501 on decelerator 503 is connected by Timing Belt 2 502 with the synchronous pulley 501 on a roller 402.

Described table top rotating mechanism 6 comprises alignment pin 601, pin-and-hole 602, approaches piece 1, rotating shaft 1, approach piece 2 605, proximity transducer 606, core tray table top 607, rotating shaft 2 608, deceleration device 609, the left side of plant bottom case 8 is provided with deceleration device 609, roller horizontal mobile mechanism 4, roller rotating mechanism 5 and table top rotating mechanism 6 are connected to form entirety by core tray table top 607 and connector, and are connected with plant bottom case 8 with rotating shaft 2 608 by rotating shaft 1; Core tray table top 607 right sides are provided with proximity transducer 606, are provided with and approach piece 1, approach piece 2 605 on plant bottom case 8, and its installation site is corresponding with proximity transducer 606 respectively. (referring to Fig. 1-3).

When work, the left-right rotary screw mandrel 404 of roller 402 one end is connected with miniature reducer 406 and micromachine 407, in the time of micromachine 407 energising rotation, drive left-right rotary screw mandrel 404 to rotate by miniature reducer 406, left-right rotary screw mandrel 404 drives feed screw nut 405 to move left and right, and drives two rollers 402 to make horizontal reverse to translation by roll adjustment synchronous pulley 409 and roll adjustment Timing Belt 408. Decelerator 503 and motor 504 that one side of plant bottom case 8 is installed, be connected with roller 402 by contiguous block, synchronous pulley 502 and Timing Belt 2 501, motor 504 is switched on, drive decelerator 503 axle rotations, the synchronous pulley 502 being positioned on decelerator 503 drives a roller 402 to rotate by Timing Belt 2 501; Roller 402 belows are provided with core tray table top 607, roller 402 two ends and core tray table top 607 connect into entirety, and be connected with plant bottom case 8 with rotating shaft 2 608 by rotating shaft 1, in the time of deceleration device 609 energising rotation, the axle of deceleration device 609 drives rotating shaft 2 608 rotations, the rotating shaft 1 that is positioned at opposite side is also rotated thereupon, thereby drives roller horizontal mobile mechanism 4, roller rotation rotation mechanism 5 to rotate together with table top rotating mechanism 6, can scan switching to rock core and core tray fast. When the proximity transducer 606 on core tray table top 607 be arranged on plant bottom case 8 approach piece 1 or approach piece 2 605 near time, stop the rotation, after stopping the rotation, alignment pin 601 is inserted in corresponding pin-and-hole 602 fixing. Core tray table top 607 can be placed core tray, for irregular rock core scanning provides convenience, has greatly improved scanning staff's operating efficiency.

The above is preferred embodiment of the present utility model, above-mentioned not illustrating done any pro forma restriction to flesh and blood of the present utility model, person of an ordinary skill in the technical field is reading any simple modification or the distortion after this description, according to technical spirit of the present utility model, above detailed description of the invention done, and the technology contents that may utilize above-mentioned announcement is changed or is modified to the equivalent embodiment of equivalent variations, all still belong in the scope of technical solutions of the utility model, and do not deviate from essence of the present utility model and scope.

Claims (7)

1. a modified core image high-resolution acquisition instrument, it is by horizontal mobile mechanism (1), vertical automatic lifting mechanism (2), core image acquisition assembly (3), roller horizontal mobile mechanism (4), roller rotating mechanism (5), table top rotating mechanism (6), column (7), plant bottom case (8) forms, it is characterized in that: the symmetrical column (7) that is provided with in plant bottom case (8) top, column (7) upper end is provided with horizontal guide rail mechanism (1), horizontal guide rail mechanism (1) is by slide block (103), slide block contiguous block (104) and vertical automatic lifting mechanism (2) attaching, core image acquisition assembly (3) is installed in vertical automatic lifting mechanism (2), plant bottom case (8) bottom is provided with roller horizontal mobile mechanism (4), roller rotating mechanism (5) and table top rotating mechanism (6), and table top rotating mechanism (6) is positioned at the below of roller horizontal mobile mechanism (4), roller rotating mechanism (5).

2. a kind of modified core image high-resolution acquisition instrument according to claim 1, it is characterized in that: described horizontal mobile mechanism (1) comprises horizontal guide rail (101), Timing Belt one (102), slide block (103), slide block contiguous block (104), synchronous wheeled box (105), gear reduction unit (106), drive motors one (107), horizontal guide rail (101) is arranged on column (7), synchronous wheeled box (105) is equipped with in one end of horizontal guide rail (101), the other end is equipped with gear reduction unit (106) and drive motors one (107), horizontal guide rail (101) is equipped with slide block (103) and slide block contiguous block (104).

3. a kind of modified core image high-resolution acquisition instrument according to claim 1, is characterized in that: described vertical automatic lifting mechanism (2) comprises laser range finder (201), riser guide (202), drive motors two (203), elevating screw (204), nut (205), shaft coupling (206); Elevating screw (204) is installed on riser guide (202), elevating screw (204) one end is provided with shaft coupling (206), drive motors two (203) is connected with elevating screw (204) by shaft coupling (206), and elevating screw (204) is connected with core image acquisition assembly (3) by nut (205).

4. a kind of modified core image high-resolution acquisition instrument according to claim 1, is characterized in that: described core image acquisition assembly (3) comprises the camera (301) of integrated LED lamp, pallet (302); Camera (301), the laser range finder (201) of integrated LED lamp are installed on pallet (302).

5. a kind of modified core image high-resolution acquisition instrument according to claim 1, it is characterized in that: described roller horizontal mobile mechanism (4) comprises rubber roll shaft bearing (401), roller (402), move horizontally guide rail (403), left-right rotary screw mandrel (404), feed screw nut (405), miniature reducer (406), micromachine (407), roll adjustment Timing Belt (408), roll adjustment synchronous pulley (409), cross bar (410), bearing block slide block (411), on the symmetrical cross bar (410) being connected with core tray table top (607), be provided with and move horizontally guide rail (403) with bearing block slide block (411), rubber roll shaft bearing (401) is arranged on respectively on bearing block slide block (411), one end of one side cross bar (410) is provided with miniature reducer (406), there is micromachine (407) one end of miniature reducer (406), the other end is connected with left-right rotary screw mandrel (404), one end of opposite side cross bar (410) is directly connected with left-right rotary screw mandrel (404) by bearing, roll adjustment synchronous pulley (409) is arranged on respectively the other end of both sides left-right rotary screw mandrels (404), be connected to form and be synchronized with the movement by roll adjustment Timing Belt (408).

6. a kind of modified core image high-resolution acquisition instrument according to claim 1, it is characterized in that: described roller rotating mechanism (5) comprises synchronous pulley (501), Timing Belt two (502), decelerator (503), motor (504), motor (504) is equipped with in the below of one side roller (402), motor (504) is connected with the decelerator (503) with synchronous pulley (501), synchronous pulley (501) on decelerator (503) is connected by Timing Belt two (502) with the synchronous pulley (501) on a roller (402).

7. a kind of modified core image high-resolution acquisition instrument according to claim 1, is characterized in that: described table top rotating mechanism (6) comprises alignment pin (601), pin-and-hole (602), approaches piece one (603), rotating shaft one (604), approach piece two (605), proximity transducer (606), core tray table top (607), rotating shaft two (608), deceleration device (609); The left side of plant bottom case (8) is provided with deceleration device (609), roller horizontal mobile mechanism (4), roller rotating mechanism (5) and table top rotating mechanism (6) are connected to form entirety by core tray table top (607) and connector, and are connected with plant bottom case (8) with rotating shaft two (608) by rotating shaft one (604); Core tray table top (607) right side is provided with proximity transducer (606), is provided with and approaches piece one (603), approaches piece two (605) on plant bottom case (8), and its installation site is corresponding with proximity transducer (606) respectively.