CN110567751B - A blevile of push for copper ore sample - Google Patents

Abstract

The invention relates to a material pushing device, in particular to a material pushing device for sampling copper ores. The invention aims to design a pushing device for sampling copper ore, which has the advantages of small volume, convenience in carrying and use outdoors and low manufacturing cost. A pushing device for sampling copper ore comprises a mounting seat, a sliding block, a rectangular shell, a bearing seat, a threaded sleeve and the like; the bottom in the mount pad is opened has the guide way, and the slidingtype is equipped with the slider in the guide way. According to the invention, the outer push rod is driven by the rotary table to push out the rock sample in the core taking sleeve, when the outer push rod pushes the rock sample in the core taking sleeve again, the core taking sleeve is driven by the moving device to move rightwards to be matched with the outer push rod, the rock sample in the core taking sleeve can be better pushed out, and the rock sample in the longer core taking sleeve can be taken out by the operation of the boosting device.

Description

A blevile of push for copper ore sample

Technical Field

The invention relates to a material pushing device, in particular to a material pushing device for sampling copper ores.

Background

With the continuous development of scientific research in modern society, China pays more and more attention to scientific research, rocks are important content in modern scientific research, changes generated in various periods of the earth and the living processes of various animals and plants can be researched, and modern scientific researchers need to take out rock samples inside mountains by using coring sleeves in different areas and then take out the rock samples inside the coring sleeves for research.

Patent application 2019101417325 discloses a high-efficiency type exploration equipment for iron ore sampling, which is convenient to maintain and comprises a workbench, a cylinder, a fixing mechanism and a cleaning mechanism, the air rod is parallel to the plane of the workbench, the air cylinder is fixedly connected with the workbench, the fixing mechanism is arranged on the workbench, the cleaning mechanism is arranged on the air rod, the fixing mechanism comprises a fixing ring, a push disc, two locking blocks and two power components, the cleaning mechanism comprises a rotating ring, a cleaning ring, a rotating assembly, two connecting balls and two fixing rods, the rotating ring and the pushing disc are coaxially arranged, this a high-efficient type exploration equipment for iron ore sample is convenient for maintain has realized taking out the function of coring intraductal sample through fixed establishment, compares in artifical sample, has improved work efficiency, moreover, has still reached through clean mechanism and has got the sheathed tube function of coring with the maintenance. However, because it moves through the cylinder 2, make push disk 4 move towards being close to solid fixed ring 3 direction to make push disk 4 promote the sample of coring in the cover and release, though can reach the fast effect of sample release, but need place coring sleeve on workstation 1, its operation is comparatively troublesome, and this equipment is bulky moreover, and is inconvenient to carry, when needs are in the outwork, and is extremely inconvenient. And adopt the cylinder to release the sample, when needing to release the sample from longer coring sleeve pipe, it is higher to the length requirement of cylinder telescopic link, and manufacturing cost is also higher.

How to design a small, portable, conveniently use and low in manufacturing cost's blevile of push that is used for copper ore sample in the open air.

Disclosure of Invention

In order to overcome the defects that the existing equipment for sampling from the coring sleeve is large in size and inconvenient to carry, is extremely inconvenient when needing to work outdoors, and is high in manufacturing cost. The technical problem of the present invention is therefore: the pushing device for sampling the copper ore is small in size, convenient to carry, convenient to use outdoors and low in manufacturing cost.

The technical scheme is as follows: the utility model provides a blevile of push for copper ore sample, which comprises a mounting bas, slider and rectangle casing, the bottom is opened there is the guide way in the mount pad, the slidingtype is equipped with the slider in the guide way, the slider top is connected with the rectangle casing, still including the bearing frame, the thread bush, threaded rod and extracting mechanism, the upper and lower two equal embedded bearing frames that are equipped with of rectangle casing, the thread bush is all installed to the upper and lower both sides of mount pad left part, thread bush interior screw-thread fit has the threaded rod, the threaded rod right part is connected with the bearing frame, install the extracting mechanism who is used for taking out the rock specimen on the rectangle casing.

Further, the material taking mechanism comprises a rotary disc, a first gear, a second gear and an outer push rod, the rotary disc is arranged on the rectangular shell in a rotary mode, the rotary disc is located on the right side of the bearing seat, the first gear is arranged on the inner side of the rotary disc, the second gear is connected to the right ends of the upper threaded rod and the lower threaded rod, the first gear is meshed with the second gear, and an outer push rod is arranged in the middle of the outer left side face of the rectangular shell.

Further, still including the mobile device, the mobile device is equipped with the motor including having hollow tube, motor, third gear, rack and fixing bolt including slidingtype between two thread bush from top to bottom and is used for placing to get the sheathed tube hollow tube of core, and the hollow tube leading flank is equipped with the rack, and top thread bush leading flank is equipped with the motor, is connected with the third gear on the output shaft of motor, and third gear and rack toothing are equipped with on the hollow tube and are used for the fixed sheathed tube fixing bolt of core.

Further, the air-conditioning device comprises a boosting device, the boosting device comprises a telescopic air bag, an inner push rod and a vent pipe, the inner push rod is arranged in an outer push rod in a sliding mode, the telescopic air bag is connected between the inner wall of the mounting seat and the rectangular shell, the vent pipe is connected to the telescopic air bag, and the tail end of the vent pipe is connected with the head end of the outer push rod.

The invention has the following advantages: according to the invention, the outer push rod is driven by the rotary table to push out the rock sample in the core taking sleeve, when the outer push rod pushes the rock sample in the core taking sleeve, the core taking sleeve is driven by the moving device to move rightwards to be matched with the outer push rod, the rock sample in the core taking sleeve can be better pushed out, and the rock sample in the longer core taking sleeve can be taken out by the operation of the boosting device.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a second front view structure diagram of the present invention.

Fig. 3 is a partial left view structural diagram of the present invention.

In the above drawings: 1: mount pad, 2: guide groove, 3: a slide block, 4: rectangular housing, 5: bearing seat, 6: thread bush, 7: threaded rod, 8: turntable, 9: first gear, 10: second gear, 11: outer push rod, 12: coring cannula, 13: moving device, 131: hollow tube, 132: motor, 133: third gear, 134: rack, 135: fixing bolt, 14: boosting device, 140: telescopic airbag, 141: inner push rod, 142: a breather tube.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example one

As shown in fig. 1 and 3, a material pushing device for sampling copper ore comprises a mounting seat 1, a sliding block 3 and a rectangular shell 4, wherein a guide groove 2 is formed in the bottom of the mounting seat 1, the sliding block 3 is arranged in the guide groove 2 in a sliding manner, the top of the sliding block 3 is connected with the rectangular shell 4, the sliding block 3 is connected with the rectangular shell 4 in a bolt connection manner, the material pushing device also comprises a bearing seat 5, a threaded sleeve 6, a threaded rod 7 and a material taking mechanism, the upper part and the lower part of the rectangular shell 4 are respectively provided with the bearing seat 5 in an embedded manner, the two bearing seats 5 are vertically symmetrical, the upper side and the lower side of the left part of the mounting seat 1 are respectively provided with the threaded sleeve 6, the axes of the two threaded sleeves 6 and the axes of the two bearing seats 5 are positioned on the same horizontal line, the threaded rod 7 is matched with the internal threads of the threaded sleeve 6, the right part of the threaded rod 7 is connected with the bearing seat 5, the material taking mechanism for taking out rock sample is arranged on the rectangular shell 4, the material taking mechanism comprises a rotary disc 8, a first gear 9, a second gear 10 and an outer push rod 11, the rotary disc 8 is rotatably arranged on the rectangular shell 4, the rotary disc 8 is rotatably connected with the rectangular shell 4 through a rotary shaft, the rotary disc 8 is positioned on the right side of the bearing seat 5, the inner side of the rotary disc 8 is connected with the first gear 9 through the rotary shaft, the right ends of the upper threaded rod 7 and the lower threaded rod 7 are respectively connected with the second gear 10, the first gear 9 is meshed with the second gear 10, and the outer push rod 11 is arranged in the middle of the outer left side face of the rectangular shell 4.

When the rock sample in the core taking sleeve 12 needs to be taken out, the device can be used, firstly, a user fixes the core taking sleeve 12 with the rock sample on the mounting seat 1 between the upper thread sleeve and the lower thread sleeve 6, then the rotary table 8 is rotated, the rotary table 8 rotates to drive the second gear 10 to rotate through the first gear 9, the second gear 10 rotates to drive the threaded rod 7 to rotate, the threaded rod 7 rotates to move leftwards through the thread sleeves 6, the threaded rod 7 moves leftwards through the rectangular shell 4 to drive the outer push rod 11 to move leftwards, the outer push rod 11 moves leftwards to extend into the core taking sleeve 12 to push out the rock sample, so that the rock sample in the core taking sleeve 12 can be taken out quickly, after the rock sample is taken out, the rotary table 8 is rotated reversely, the threaded rod 7 and the rectangular shell 4 reset rightwards, and after the rectangular shell 4 is completely reset, the rotary table 8 stops rotating.

Example two

As shown in fig. 2 and 3, the coring device further comprises a moving device 13, the moving device 13 comprises a hollow tube 131, a motor 132, a third gear 133, a rack 134 and a fixing bolt 135, the hollow tube 131 for placing the coring cannula 12 is slidably arranged between the upper threaded sleeve 6 and the lower threaded sleeve 6, the hollow tube 131 is located right left of the outer push rod 11, the rack 134 is arranged on the front side surface of the hollow tube 131, the rack 134 is connected with the hollow tube 131 in a bolt connection mode, the motor 132 is arranged on the front side surface of the upper threaded sleeve 6, the third gear 133 is connected to an output shaft of the motor 132, the third gear 133 is meshed with the rack 134, and the fixing bolt 135 for fixing the coring cannula 12 is arranged on the hollow tube 131.

When a rock sample needs to be taken out, the coring sleeve 12 filled with the rock sample is placed into the hollow pipe 131, the fixing bolt 135 is screwed to fix the coring sleeve 12, then the rotary table 8 is rotated to move leftwards, the motor 132 is started to drive the third gear 133 to rotate, the third gear 133 rotates to drive the hollow pipe 131 to move rightwards through the rack 134, the hollow pipe 131 moves rightwards to drive the coring sleeve 12 to move rightwards, the coring sleeve 12 moves rightwards to be matched with the outer push rod 11 to take out the rock sample, and therefore the situation that the rock sample in the coring sleeve 12 is clamped too tightly and cannot be pushed is avoided, and the speed of taking out the rock sample is increased. After the rock sample is taken out, the fixing bolt 135 is unscrewed to loosen the hollow pipe 131, and then the coring sleeve 12 is taken out.

EXAMPLE III

As shown in fig. 1, the booster 14 is further included, the booster 14 includes a telescopic airbag 140, an inner push rod 141 and a vent pipe 142, the inner push rod 141 is slidably disposed in the outer push rod 11, the telescopic airbag 140 is connected between the inner wall of the mounting seat 1 and the rectangular shell 4, the telescopic airbag 140 is parallel to the mounting seat 1, the vent pipe 142 is connected to the telescopic airbag 140, the tail end of the vent pipe 142 is connected to the head end of the outer push rod 11, and the outer push rod 11 is communicated with the inside of the telescopic airbag 140 through the vent pipe 142.

When outer push rod 11 is promoting the rock specimen, drive flexible gasbag 140 through rectangle casing 4 and compress, the gas in flexible gasbag 140 passes through breather pipe 142 and promotes interior push rod 141 toward coring sleeve pipe 12 direction to the rock specimen that will core in the sleeve pipe 12 is released, so, interior push rod 141 and outer push rod 11 are released the rock specimen simultaneously and can be improved sampling efficiency, and can take a sample to longer coring sleeve pipe 12, have improved the practicality.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (3)

1. A pushing device for sampling copper ores comprises a mounting seat, a sliding block and a rectangular shell, wherein a guide groove is formed in the bottom in the mounting seat, the sliding block is arranged in the guide groove in a sliding mode, and the top of the sliding block is connected with the rectangular shell; the material taking mechanism comprises a rotary disc, a first gear, a second gear and an outer push rod, the rotary disc is rotatably arranged on the rectangular shell, the rotary disc is located on the right side of the bearing seat, the first gear is arranged on the inner side of the rotary disc, the second gear is connected to the right ends of the upper threaded rod and the lower threaded rod, the first gear is meshed with the second gear, and an outer push rod is arranged in the middle of the outer left side face of the rectangular shell.

2. The pushing device for sampling the copper ore as claimed in claim 1, further comprising a moving device, wherein the moving device comprises a hollow tube, a motor, a third gear, a rack and a fixing bolt, a hollow tube for placing the core taking sleeve is slidably arranged between the upper threaded sleeve and the lower threaded sleeve, the rack is arranged on the front side of the hollow tube, the motor is arranged on the front side of the upper threaded sleeve, the third gear is connected to an output shaft of the motor and meshed with the rack, and the fixing bolt for fixing the core taking sleeve is arranged on the hollow tube.

3. A pushing device for sampling copper ore according to claim 2 further comprising a boosting device, wherein the boosting device comprises a telescopic air bag, an inner push rod and a vent pipe, the inner push rod is arranged in an outer push rod in a sliding manner, the telescopic air bag is connected between the inner wall of the mounting seat and the rectangular shell, the vent pipe is connected to the telescopic air bag, and the tail end of the vent pipe is connected with the head end of the outer push rod.

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