CN210880306U - Stone material weathered layer layering reposition of redundant personnel waterline breaker - Google Patents

Abstract

The utility model provides a building stones weathered layer layering reposition of redundant personnel waterline breaker, the power distribution box comprises a box body, the box rear is equipped with big motor one, the utility model discloses profitable effect is: the utility model has the advantages of simple structure and easy and simple to handle, can carry out corresponding smashing to the regolith of wrapping up the building stones on regolith with the mode of assembly line, can model the building stones through X light and camera, calculate the thickness on regolith, the true profile of building stones, the circumcision circle size of building stones to carry out the layering cutting many times to regolith, the at utmost has improved the output of building stones and has kept the integrality of building stones, has avoided artificial loaded down with trivial details and low ageing.

Description

Stone material weathered layer layering reposition of redundant personnel waterline breaker

Technical Field

The utility model relates to a broken technical field of building stones especially relates to a building stones weathered layer layering reposition of redundant personnel waterline breaker.

Background

At present, after part of stones are mined and excavated, the surface of the stones is provided with a layer of aeolian layer wrapped by thick sedimentary rocks which is completely different from the type of the stones inside, and the pure stones to be obtained are crushed on the surface of the stones, at present, two treatment methods are provided for the stones wrapped by the aeolian layer, the stones are directly put into a crusher to be crushed together with the aeolian layer, the crushed stones are manually screened out to be partially pure stones to be used or are directly used together with impurities of the aeolian layer, a sander is manually removed by a sander, the loss of the artificially screened stones in the first method is huge, the input-output ratio is too low, the purity is insufficient when the stones are originally used together with the impurities of the aeolian layer, only primary requirements can be met, the surfaces of the stones in the second method are not flat but are in uneven shapes, so that the manual sanding efficiency is low, the time and labor are wasted, and the cost caused by manpower sometimes even exceeds the value of the stone, so that the stone is not paid.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art and provide a stone weathered layer layered diversion waterline crushing device, which can take pictures and X-ray scan on massive stones wrapped on the weathered layer, carry out three-dimensional modeling, calculate the size of an excircle of the stones without the weathered layer and the outline of the stones without the weathered layer, polish and flatten the bottom of the stones as a reference surface and drill a drill bit for fixing, install a sliding plate capable of moving freely on the plane above the stones, install a large rotating motor at the bottom of the sliding plate, install a four-jaw chuck at the bottom of the large rotating motor, fixedly install a cylinder at the bottom of the four-jaw chuck jaws, fixedly install a small rotating motor at the bottom of the cylinder, fixedly install four vertical milling cutters distributed in a cross shape at the bottom of the small rotating motor, the four-jaw chuck can drive the four vertical milling cutters to move radially by stretching and retracting, the four end mills initially cut the stone around the circumscribed circle of the stone from which the weathered layer is removed, then three flat diamonds in the four end mills are lifted up by the cylinder, and the remaining end mill can cut the redundant weathered layer according to the profile of the stone from which the weathered layer is removed by the extension and retraction of the four-jaw chuck and the rotation of the large rotating motor, thereby keeping the maximum volume of the stone.

The utility model provides a technical scheme that its technical problem adopted: the stone weathered layer layered diversion waterline crushing device comprises a box body, wherein a first large motor is arranged at the rear of the box body, a first bearing platform fixedly connected with the ground is arranged at the bottom of the first large motor, a first threaded shaft, a sliding plate and a second threaded shaft are respectively arranged between the left end of the upper half part, the middle part of the upper half part and the right end of the upper half part of the box body, the front end of the first threaded shaft and the front end of the second threaded shaft are fixedly connected with the inside of the front end of the box body, the rear end of the first threaded shaft and the rear end of the second threaded shaft penetrate through the inner wall of the rear end of the box body and then are fixedly connected with the first large motor, a first sliding block and a second sliding block which can slide along the first threaded shaft and the second threaded shaft are respectively arranged at the outer sides of the first threaded shaft and the second threaded shaft at the first threaded shaft, a first small motor is fixedly arranged at the left end of the, the sliding plate can slide along the third threaded shaft, a large rotating motor is fixedly installed at the bottom of the sliding plate, a supporting plate is fixedly installed at the bottom of the large rotating motor, a four-jaw chuck is fixedly installed at the bottom of the supporting plate, a fixed plate capable of moving along with the jaws in a radial direction is installed at the bottom of the four-jaw chuck in an array mode, a first air cylinder is fixedly installed at the bottom of the fixed plate, a second small motor is fixedly installed at the bottom of the first air cylinder, an end mill is fixedly installed at the bottom of the second small motor, an outlet and an inlet are formed in the middle of the inner wall of the left end and the right end of the box body respectively, a first supporting plate and a second large motor are arranged on the left side and the right side of the box body respectively, a second bearing platform fixedly connected with the, the right end of the four threaded shafts is fixedly connected with a large motor II, the left end of the four threaded shafts is movably connected with a support plate I, a sliding plate II capable of sliding along the four threaded shafts is arranged on the outer side of the inner part of the box body of the four threaded shafts, a grinding layer is fixedly arranged on the top of the sliding plate II, through holes are formed in the periphery of the inner part of the sliding plate II, a box body II is arranged below the sliding plate II, cylinders II fixedly connected with the bottom of the inner wall of the box body and distributed in an array mode are fixedly arranged at the bottom of the box body II, small motors III distributed in an array mode are fixedly arranged at the bottom of the inner wall of the box body II, drill bits are fixedly arranged at the tops of the small motors III, penetrate through the tops of the inner wall of the box body II and correspond to the through holes, in conclusion, the device can firstly grind and drill and fix the bottom of the stone, then the radial movement of the four-jaw chuck is utilized to control the inscribed circle of the end mill to be the same as the circumscribed circle of the stone after the weathered layer is removed, then the rotation of the large rotating motor is utilized to drive the four-jaw chuck and the end mill to rotate to primarily cut the stone, then the end mill further cuts the stone along the outline of the stone after the weathered layer is removed, and the weathered layer on the surface of the stone can be cut in a targeted manner.

For further perfection, two array distributions all around of box have with the dust collection box of box inner wall and the laminating of box outside, the dust collection box inner wall bottom fixed mounting has the relief pump, relief pump top fixed mounting has the funnel, the relief pump has the connecting pipe towards box inner wall one end fixed mounting, the connecting pipe passes in proper order that dust collection box inner wall and box inner wall reach outside the box, the connecting pipe is located the outer one end of box and is equipped with the collecting box.

The utility model discloses profitable effect is: the utility model has the advantages of simple structure and easy and simple to handle, can carry out corresponding smashing to the regolith of wrapping up the building stones on regolith with the mode of assembly line, can model the building stones through X light and camera, calculate the thickness on regolith, the true profile of building stones, the circumcision circle size of building stones to carry out the layering cutting many times to regolith, the at utmost has improved the output of building stones and has kept the integrality of building stones, has avoided artificial loaded down with trivial details and low ageing.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the middle box of the present invention;

FIG. 3 is a sectional view taken along line A-A of FIG. 1 according to the present invention;

fig. 4 is a left side view of the present invention;

FIG. 5 is a top view of the four-jaw chuck of the present invention;

fig. 6 is a schematic view of stone in the present invention.

Description of reference numerals: the device comprises a box body 1, a first threaded shaft 2, a first sliding block 3, a sliding plate 4, a first control chip 5, a third threaded shaft 6, a first small motor 7, a second threaded shaft 8, a second sliding block 9, a first cylinder 10, a second small motor 11, an end mill 12, a camera 13, a second sliding plate 14, an inlet 15, a fourth threaded shaft 16, a second large motor 17, a second bearing platform 18, a dust collection box 19, a drill bit 20, a third small motor 21, a second box body 22, a second cylinder 23, a discharge pump 24, a connecting pipe 25, a collection box 26, a water flow conveyor belt 27, a first support plate 28, an outlet 29, a one-way plate 30, an X-ray scanner 31, a four-jaw chuck 32, a support plate 33, a large rotating motor 34, a second control chip 35, a through hole 36, a first large motor 37, a fixing plate 38, a grinding layer 39, a first bearing platform.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

with reference to figures 1, 2, 3, 4, 5, 6: the stone weathered layer layered diversion waterline crushing device in the embodiment comprises a box body 1, a large motor I37 is arranged at the rear of the box body 1, a bearing platform I40 fixedly connected with the ground is arranged at the bottom of the large motor I37, a threaded shaft I2, a sliding plate 4 and a threaded shaft II 8 are respectively arranged between the left end of the upper half part, the middle part of the upper half part and the right end of the upper half part of the box body 1, the front end of the threaded shaft I2 and the front end of the threaded shaft II 8 are fixedly connected with the inside of the front end of the box body 1, the rear ends of the threaded shaft I2 and the threaded shaft II 8 penetrate through the inner wall of the rear end of the box body 1 and then are fixedly connected with the large motor I37, a sliding block I3 and a sliding block II 9 which can slide along the threaded shaft I2 and the threaded shaft II 8 are respectively arranged on the outer side of the inside of the box body, a small motor, a threaded shaft III 6 is fixedly installed at the left end of the small motor I7, the left end of the threaded shaft III 6 penetrates through a sliding plate 4 and then is movably connected with a sliding block I3, the sliding plate 4 can slide along the threaded shaft III 6, a large rotating motor 34 is fixedly installed at the bottom of the sliding plate 4, a supporting plate 33 is fixedly installed at the bottom of the large rotating motor 34, a four-jaw chuck 32 is fixedly installed at the bottom of the supporting plate 33, a fixing plate 38 capable of moving along with a jaw in a radial direction is installed at the bottom of the four-jaw chuck 32 in an array mode, a cylinder I10 is fixedly installed at the bottom of the fixing plate 38, a small motor II 11 is fixedly installed at the bottom of the cylinder I10, a vertical milling cutter 12 is fixedly installed at the bottom of the small motor II 11, an outlet 29 and an inlet 15 are respectively arranged in the middle parts of the inner walls of the left end and the right, the bottom of the large motor II 17 is provided with a bearing platform II 18 fixedly connected with the ground, the middle part inside the box body 1 is provided with a threaded shaft IV 16, the left end and the right end of the threaded shaft IV 16 respectively extend out of the box body 1 from an outlet 29 and an inlet 15, the right end of the threaded shaft IV 16 is fixedly connected with the large motor II 17, the left end of the threaded shaft IV 16 is movably connected with a support plate I28, a sliding plate II 14 capable of sliding along the threaded shaft IV 16 is arranged on the outer side of the part inside the box body 1 of the threaded shaft IV 16, a grinding layer 39 is fixedly arranged on the top of the sliding plate II 14, through holes 36 are formed in the periphery inside the sliding plate II 14, a box body II 22 is arranged below the sliding plate II 14, the box body II 22 is fixedly provided with air cylinders II 23 fixedly connected with the bottom of the inner wall of the box body 1 and distributed in an array manner, and the, three 21 top fixed mounting of small motor has drill bit 20, drill bit 20 passes two 22 inner wall tops of box and corresponds with through-hole 36, box 1 left is equipped with the flowing water conveyer belt 27 that is located export 29 below, inner wall middle part both ends are equipped with camera 13 and X-ray scanner 31 around box 1.

With reference to figures 1, 2, 3, 4: the two 22 array distributions all around of box have with the dust collection box 19 of the laminating in the 1 inner wall of box and the two 22 outside of box, dust collection box 19 the 19 inner wall bottom fixed mounting of dust collection box has row material pump 24, row material pump 24 top fixed mounting has funnel 42, row material pump 24 has connecting pipe 25 towards 1 inner wall one end fixed mounting of box, connecting pipe 25 passes in proper order outside 19 inner walls of dust collection box and the 1 inner wall of box reachd box 1, connecting pipe 25 is located the outer one end of box 1 and is equipped with collecting box 26.

With reference to figures 1, 2, 3, 4, 5, 6: a use method of a stone weathered layer layered diversion waterline crushing device comprises the following steps:

firstly, feeding: a first control chip 5 and a third control chip 41 are respectively arranged inside the top and the bottom of the box body 1, a second control chip 35 is arranged in the center of the inside of the second sliding plate 14, the second control chip 35 controls the second large motor 17 to rotate so as to slide the second sliding plate 14 out of the box body 1 from the inlet 15, then stone materials needing to be processed in a regolith layer are approximately placed in the center of the second sliding plate 14, and then the stone materials are conveyed into the box body 1 by the second sliding plate 14;

secondly, modeling calculation: the camera 13 and the X-ray scanner 31 transmit the positions and model data of the shot stones to the control chip I5 for analysis and calculation to obtain the size of the circumscribed circle of the stones without the weathering layer and the outline of the stones without the weathering layer;

grinding a reference surface: the control chip I5 controls the sliding plate 4 to align the four-jaw chuck 32 above the stone, the inner diameter of the four-jaw chuck 32 is expanded to be larger than the stone profile, the air cylinder I10 extends, the end mill 12 surrounds the stone, then the four-jaw chuck 32 is tightened, the end mill 12 clamps the stone immediately, the sliding plate 4 moves to align the center of the sliding plate 14 with the center, the stone is also driven to the center of the sliding plate II 14, then the control chip II 35 controls the large motor II 17 to rotate forwards and backwards quickly in a circulating mode to drive the sliding plate II 14 to move left and right quickly to grind the bottom of the stone, and the end mill 12 is loosened to rebuild the stone by using the camera 13 every grinding period of time and calculate whether the bottom of the stone is approximately level;

fourthly, preliminary material removal: when the bottom of the stone is approximately flush with the sliding plate II 14, the control chip III 41 controls the cylinder II 23 to ascend and controls the small motor III 21 to operate to drive the drill bit 20 to rotate, the drill bit 20 penetrates through a through hole 36 in the sliding plate II 14 and then drills into the bottom of the stone to fix the stone, then the four-jaw chuck 32 contracts to reach the size of an excircle circle of the stone after a weathering layer is removed, the large rotating motor 34 drives the four-jaw chuck 32 to rotate while the four-jaw chuck 32 contracts, and meanwhile, the small motor II 11 drives the end mill 12 to rotate to primarily cut the weathering layer on the surface of the stone;

fifthly, further removing materials: after the preliminary material removal, a part of weathered layer is not removed due to the unevenness of the surface of the stone, at the moment, the control chip I5 controls the cylinder I10 to withdraw the end mill 12, only one end mill 12 is left, the remaining end mill 12 can cut along the outline of the stone after the weathered layer is removed through the expansion and contraction of the four-jaw chuck 32 and the rotation of the large rotating motor 34, and the weathered layer is removed under the condition of maximally preserving the stone;

sixthly, discharging: when the material is removed and the drill bit 20 returns to the original position, the second control chip 35 controls the second sliding plate 14 to pass through the outlet 29 and reach the left side of the box body 1, then the second sliding plate 14 passes through the inside of the box body 1 and the outlet 15 and reaches the right side of the box body 1 for next feeding, and the stone is blocked by the one-way plate and falls on the running water conveyor belt 27 during the sliding process of the sliding plate 14;

seventhly, dust removal: the powder and gravel produced during the stone removal process fall from the top of the dust bin 19 and then through the hopper pipe 12 into the discharge pump 24 which temporarily stores the powder and gravel in a collection bin 26 through a connecting pipe 25.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (2)

1. The utility model provides a building stones weathered layer layering reposition of redundant personnel waterline breaker, includes box (1), characterized by: a first large motor (37) is arranged at the rear of the box body (1), a first bearing platform (40) fixedly connected with the ground is arranged at the bottom of the first large motor (37), a first threaded shaft (2), a sliding plate (4) and a second threaded shaft (8) are respectively arranged between the left end of the upper half part, the middle part of the upper half part and the right end of the upper half part of the box body (1), the front end of the first threaded shaft (2) and the front end of the second threaded shaft (8) are fixedly connected with the inner part of the front end of the box body (1), the rear end of the first threaded shaft (2) and the rear end of the second threaded shaft (8) penetrate through the inner wall of the rear end of the box body (1) and then are fixedly connected with the first large motor (37), a first sliding block (3) and a second sliding block (9) which can slide along the first threaded shaft (2) and the second threaded shaft (8) are respectively arranged on the outer side of the inner part of the box body, and a first small motor (7, the left end of the small motor I (7) is fixedly provided with a threaded shaft III (6), the left end of the threaded shaft III (6) penetrates through the sliding plate (4) and then is movably connected with the sliding block I (3), the sliding plate (4) can slide along the threaded shaft III (6), the bottom of the sliding plate (4) is fixedly provided with a large rotating motor (34), the bottom of the large rotating motor (34) is fixedly provided with a supporting plate (33), the bottom of the supporting plate (33) is fixedly provided with a four-jaw chuck (32), the bottom of the four-jaw chuck (32) is provided with a fixing plate (38) which can move along with the radial direction of a jaw in an array manner, the bottom of the fixing plate (38) is fixedly provided with a cylinder I (10), the bottom of the cylinder I (10) is fixedly provided with a small motor II (11), the bottom of the small motor II (11) is fixedly provided with a vertical milling cutter (12), the middle parts of, the inner wall of the top of the outlet (29) is provided with a one-way plate (30), the left side and the right side of the box body (1) are respectively provided with a first support plate (28) and a second large motor (17), the bottom of the second large motor (17) is provided with a second bearing platform (18) fixedly connected with the ground, the middle part inside the box body (1) is provided with a fourth threaded shaft (16), the left end and the right end of the fourth threaded shaft (16) respectively extend out of the box body (1) from the outlet (29) and the inlet (15), the right end of the fourth threaded shaft (16) is fixedly connected with the second large motor (17), the left end of the fourth threaded shaft (16) is movably connected with the first support plate (28), the outer side of the part inside the box body (1) is provided with a second sliding plate (14) capable of sliding along the fourth threaded shaft (16), the top of the second sliding plate (14) is fixedly provided with a grinding layer (39), and through holes (36) are, the automatic conveying device is characterized in that a second box body (22) is arranged below the second sliding plate (14), the second box body (22), cylinders (23) which are fixedly connected with the bottom of the inner wall of the second box body (1) in an array distribution mode are fixedly arranged at the bottom of the second box body (22), small motors (21) which are distributed in an array mode are fixedly arranged at the bottom of the inner wall of the second box body (22), drill bits (20) are fixedly arranged at the tops of the small motors (21), the drill bits (20) penetrate through the tops of the inner walls of the second box body (22) and correspond to through holes (36), a flow conveyor belt (27) located below an outlet (29) is arranged on the left side of the second box body (1), and cameras (13) and an X.

2. The stone weathered layered diversion waterline crushing device of claim 1, wherein: and dust collection boxes (19) attached to the inner wall of the box body (1) and the outer side of the box body II (22) are distributed around the box body II (22) in an array manner.

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