CN110587320B - High-precision high-speed high-flexibility intelligent rail profile assembling and detecting equipment - Google Patents

Abstract

The invention relates to the field of automatic machinery, in particular to high-precision high-speed high-flexibility intelligent rail profile assembling and detecting equipment. The device comprises a sawing and deburring mechanism, a planing and milling mechanism, a transferring mechanism, a plastic strip penetrating mechanism, an extruding mechanism and a pressure-resistant detection mechanism, wherein the sawing and deburring mechanism comprises a first support, a first roller way conveying belt is arranged on the first support, a cutting and polishing assembly is arranged on the first support along the first roller way conveying belt, the planing and milling mechanism comprises a second support connected with the first support, a second roller way conveying belt and a planing and milling assembly are sequentially arranged on the second support, the transferring mechanism comprises a third support connected with the second support, a third roller way conveying belt is arranged on the third support, and the third roller way conveying belt is arranged along the third roller way conveying belt.

Description

High-precision high-speed high-flexibility intelligent rail profile assembling and detecting equipment

Technical Field

The invention relates to the field of automatic machinery, in particular to high-precision high-speed high-flexibility intelligent rail profile assembling and detecting equipment.

Background

The rail is required to be used for assembling the goods shelves in some supermarkets, the sizes of the goods shelves are different, so that the rails are required to be processed according to the sizes of the goods shelves, the existing rails are manually cut, polished and penetrated by manpower, the time required for assembling the goods shelves, the manpower and the material force are relatively large, and the efficiency is low.

Disclosure of Invention

The invention aims to solve the technical problem of providing high-precision high-speed high-flexibility intelligent rail profile assembling and detecting equipment which can rapidly cut, polish and thread plastic strips on rails and has high efficiency.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a high-accuracy high-speed high flexibility intelligent track section dress equipment of examining, includes saw cuts thorn mechanism, digs mills mechanism, transfer mechanism, wears plastic strip mechanism, extrusion mechanism and withstand voltage detection mechanism, saw cuts to remove thorn mechanism and includes first support, be equipped with first roll table transmission band on the first support, along first roll table transmission band sets up cutting polishing assembly on the first support, dig mill mechanism include with first leg joint's second support, be equipped with second roll table transmission band and dig on the second support in proper order and mill the subassembly, transfer mechanism include with second leg joint's third support, be equipped with third roll table transmission band on the third support, along third roll table transmission band sets up remove the subassembly on the third support, wear plastic strip mechanism include with third leg joint's fourth support, third support with be equipped with on the fourth support and wear plastic strip subassembly, extrusion mechanism is including setting up fourth transmission band on the fourth support, along fourth roll table transmission band sets up the third support is in the fourth support is in the withstand voltage subassembly on the fifth roll table transmission band, fifth support is equipped with the withstand voltage detection mechanism sets up along the fourth support.

Further, preferably, the cutting and polishing assembly comprises first guide rails respectively arranged on the first brackets at two sides of the first roller conveyor belt, a first bottom plate is arranged on the first guide rails, the first bottom plate is pushed to move on the first guide rails through a first linear module arranged on the first brackets, two side plates which are parallel to each other and are perpendicular to the first bottom plate are arranged on the first bottom plate, the parallel directions of the two side plates are the same as the conveying direction of the first roller conveyor belt, cutting wheels are arranged at the opening ends of one ends of the two side plates, the cutting wheels are driven to rotate through a first motor, the first motor is arranged on a first mounting plate, the first mounting plate is connected with a second guide rail respectively arranged on the end face of each side plate, the top of the two side plates is provided with a second linear module connected with the first mounting plate, the second linear module drives the first mounting plate to move up and down so as to drive the first motor and the cutting wheel to move up and down, the opening end of the other end of each side plate is provided with a steel brush, the steel brushes are arranged at the bottom of the second mounting plate through rotating shafts, bearings are arranged between the rotating shafts and the second mounting plate, driven wheels are arranged on the rotating shafts, the second mounting plate is provided with a driving wheel, the driving wheel is driven to rotate through a second motor arranged at the other side of the second mounting plate, the driving wheel and the driven wheels are driven by a belt, the second mounting plate is connected with third guide rails respectively arranged on the end surfaces of each side plate, the tops of the two side plates are provided with first cylinders, the first air cylinder pushes the second mounting plate to move up and down along the third guide rail, so that the second motor and the steel brush are driven to move up and down.

More preferably, the cutting and polishing assembly further comprises a first clamping assembly, a first pressing assembly, a second clamping assembly, a third clamping assembly, a second pressing assembly and a fourth clamping assembly which are sequentially arranged on the first support along the first roller conveyor belt, the third clamping assembly and the second pressing assembly are all arranged below the first bottom plate, the first clamping assembly, the first pressing assembly and the second clamping assembly are arranged in front of the cutting wheel, the fourth clamping assembly is arranged behind the steel brush, the first clamping assembly comprises a second bottom plate connected with the first support, one end of the second bottom plate is provided with a first clamping plate, a movable second clamping plate is arranged on the second bottom plate, the second clamping plate is pushed to move through a second cylinder arranged on the second bottom plate so as to be matched with the first clamping rail, the first clamping assembly, the second clamping assembly, the third clamping assembly and the fourth clamping assembly are arranged in front of the same pushing structure, the first clamping assembly and the second clamping assembly are of the same lifting frame, and the second clamping assembly are of the same lifting frame are in a first lifting structure, and the lifting frame is provided with the same lifting frame.

More preferably, the cutting and polishing assembly further comprises a fixed length assembly arranged on the second support and on one side of the second roller way conveying belt, the fixed length assembly comprises a sixth guide rail arranged on the second support and on one side of the second roller way conveying belt, a first moving plate is arranged on the sixth guide rail, a fifth mounting plate is vertically arranged on the first moving plate, a seventh guide rail is arranged on one side of the fifth mounting plate, a baffle extending to the upper side of the second roller way conveying belt is arranged on the seventh guide rail, a tenth air cylinder for driving the baffle to lift up and down along the seventh guide rail is arranged on the other side of the fifth mounting plate, a first belt is arranged on the other side of the sixth guide rail, the first belt drives rotation through a first driven wheel and a first driving wheel which are arranged on the second support and on the front and back, the first belt is simultaneously connected with the first moving plate, and the first moving plate is driven to move along the sixth guide rail through rotation of the first belt.

Preferably, the planing and milling assembly comprises a first base with a hollow inside, at least two rows of roller groups are horizontally arranged on the first base, gears coaxially connected with the rollers are arranged in the first base, all gears in the same row are in meshed connection, the gear groups in the two rows are in meshed connection through at least one transmission gear, a row of driving wheels are arranged on the first base between the two rows of roller groups, a third mounting plate connected with the first base is arranged above the first base, a third motor is arranged on the third mounting plate, the third motor is connected with the rollers to drive the rollers to rotate, one roller rotates to drive all the rollers in two rows to rotate, a first mounting frame is arranged on the third mounting plate, a plurality of cutters arranged on the first mounting frame are arranged in a straight shape, a pressing wheel is arranged above the driving wheels, the pressing wheel is pushed to lift up and down through a fourth air cylinder above the pressing wheel, and the fourth motor is arranged on the second mounting frame, and the third mounting frame is arranged on the third mounting frame.

Preferably, the moving assembly comprises a plurality of moving blocks arranged side by side, each moving block is provided with at least two grooves, the bottoms of all the moving blocks are connected through a first cross rod, two sides of the first cross rod are provided with second cross rods in parallel, a twelfth air cylinder for driving the first cross rod is arranged at the bottoms of the second cross rods, the first cross rod is driven to lift through the twelfth air cylinder, the bottoms of the second cross rods are connected with a plurality of fourth guide rails which are horizontally and uniformly arranged on the third support, the bottoms of the second cross rods are connected with a fifth air cylinder arranged on the third support, and the second cross rods are pushed to move along the fourth guide rails through the fifth air cylinders.

Preferably, the plastic strip penetrating assembly comprises a clamping device, a plastic strip conveying device and a placement frame which are sequentially arranged, the clamping device comprises a third bottom plate arranged on a third bracket, the third bottom plate is provided with a fifth guide rail, a movable plate is arranged on the fifth guide rail, a sixth air cylinder for pushing the movable plate to move on the fifth guide rail is arranged on the third bottom plate, a third clamping plate is arranged at one end of the movable plate, a fourth clamping plate is arranged on the movable plate, a seventh air cylinder for pushing the fourth clamping plate to move is arranged on the movable plate, the rail is clamped by the third clamping plate and the fourth clamping plate, the plastic strip conveying device comprises a fourth bottom plate arranged on the fourth bracket, a positioning frame and a second base with hollow inside are sequentially arranged on the fourth bottom plate, a guide block is embedded in the middle of the positioning frame, the guide block is provided with at least two profiling holes for the plastic strips to pass through, the second base is provided with three rows of cylinder groups, a transmission channel of the plastic strips is formed between two adjacent rows of cylinder groups, each row of cylinder groups consists of a plurality of cylinders, each cylinder is connected with a gear inside the second base, a middle row of gears are meshed with each other, two rows of gears on two sides are meshed with a middle row of gears respectively at the same time, a top plate fixed with a fourth bottom plate is arranged above the three rows of cylinder groups, a fourth motor is arranged on the top plate, the fourth motor is connected with one cylinder below, one cylinder is driven to rotate by the fourth motor, all cylinders are driven to rotate by the rotation of the cylinder, the movement of the plastic strips is driven by the rotation of the cylinder, an eighth cylinder is arranged on the top plate, the eighth cylinder is connected with one end of a connecting rod located below the top plate, the other end of the connecting rod is connected with a pushing piece, the pushing piece is connected with the connecting rod through a first rotating shaft, the pushing piece is driven to move by the eighth cylinder so as to push the last section of plastic strip into a track, the placement frame is shaped like a door, the placement frame is provided with a plurality of placement frames which are linearly arranged on the fourth support, and the top of the placement frame is provided with a first groove for placing the plastic strip.

Preferably, the extrusion assembly comprises a third base arranged on the fourth bracket, two third bases are arranged, limiting blocks are arranged on opposite surfaces of the third bases on two sides, a gap for track movement is formed between the two limiting blocks, a guide rod is further connected between the third bases on two sides and positioned above the two limiting blocks, two first moving blocks are arranged on the guide rod, an extrusion block extending to the position between the two limiting blocks is connected to the bottom of each first moving block, the top of each first moving block is rotationally connected with one end of a connecting rod, the other end of each connecting rod is simultaneously rotationally connected with a connecting block, the connecting block is connected with one end of a rod body above through a connecting shaft, a gate-shaped frame crossing the connecting block is further arranged between the third bases on two sides, the rod body is rotationally connected with the top of the door-shaped frame to form a fulcrum, a first guide rod is arranged between the connecting block and the top of the door-shaped frame, one end of the first guide rod is fixed with the top of the door-shaped frame, the connecting block can move up and down along the first guide rod, the other end of the rod body is connected with a ninth air cylinder below, the ninth air cylinder is arranged on a fourth mounting plate, the bottom of the ninth air cylinder is hinged with the fourth mounting plate, the fourth mounting plate is arranged on a fourth base, the fourth base is arranged on a fourth bracket, one end of the rod body is driven to tilt through the ninth air cylinder, the other end of the rod body is driven to descend so as to push two first moving blocks to move towards two sides along the guide rod respectively, at this time, the two extrusion blocks also move towards two sides so as to extrude and fit the plastic strip and the rail again.

Preferably, the withstand voltage detection assembly comprises a measurement bracket installed on a fifth bracket, a withstand voltage instrument is arranged on the measurement bracket, a first electrode assembly and a second electrode assembly are arranged on the fifth bracket and positioned on two sides of the measurement bracket, the first electrode assembly comprises an eighth guide rail arranged on the fifth bracket, a vertical plate is arranged on the eighth guide rail, the vertical plate is pushed to move on the eighth guide rail through a thirteenth air cylinder installed on the fifth bracket, a ninth guide rail is arranged on one side of the vertical plate, a sixth mounting plate is arranged on the ninth guide rail, a fourteenth air cylinder is arranged on the other side of the vertical plate, the fourteenth air cylinder is connected with the sixth mounting plate through a first connecting rod, so that the sixth mounting plate is pushed to move up and down along the ninth guide rail through the fourteenth air cylinder, a first electrode is arranged on the sixth mounting plate, the second electrode assembly comprises a seventh guide rail installed on the fifth bracket, a first vertical plate is arranged on the seventh mounting plate, a tenth guide rail is arranged on one side of the first vertical plate, a fifteenth air cylinder is arranged on the eighth guide rail, a fifteenth mounting plate is connected with the eighth mounting plate through a fifteenth air cylinder, and the eighth mounting plate is arranged on the fifteenth mounting plate.

The invention has the beneficial effects that: the invention cuts the track rapidly through the saw cutting mechanism and polishes the cut end or periphery; the invention performs planing and milling on the cut track through the planing and milling mechanism; the invention penetrates the plastic strip into the track through the plastic strip penetrating mechanism; according to the invention, the plastic strip and the track strip are tightly pressed through the extrusion mechanism; the track is transmitted and transferred by the transfer mechanism matched with the plastic strip penetrating mechanism and the extrusion mechanism; the invention carries out pressure resistance test on the processed track through a pressure resistance detection mechanism; the invention realizes the automation of track processing, has good processing effect and high processing efficiency.

Drawings

FIG. 1 is a schematic structural view of a high-precision high-speed high-flexibility intelligent rail profile assembly and inspection device;

FIG. 2 is a schematic view of the saw cut-out lancing mechanism of the present invention;

FIG. 3 is a schematic view of the cutting and grinding assembly of the present invention;

FIG. 4 is a front view of a cutting and grinding assembly of the present invention;

FIG. 5 is a schematic view of a portion of the structure of a cutting and grinding assembly of the present invention;

FIG. 6 is a schematic view of the planing and milling mechanism of the present invention;

FIG. 7 is a schematic view of the structure of the fixed length assembly of the present invention;

FIG. 8 is a schematic view of the planing and milling mechanism of the present invention;

FIG. 9 is a cross-sectional view of the planing and milling mechanism of the present invention;

FIG. 10 is a schematic view of the transfer mechanism of the present invention;

FIG. 11 is a schematic view of a mobile assembly according to the present invention;

FIG. 12 is a schematic view of the structure of the plastic strip threading mechanism and the extrusion mechanism of the present invention;

FIG. 13 is a schematic view of the gripping device of FIG. 12;

FIG. 14 is a schematic view of the construction of the plastic strip penetrating assembly and the mounting bracket of the present invention;

FIG. 15 is a schematic view of the structure of the extrusion assembly of the present invention;

FIG. 16 is a schematic view showing the structure of a pressure-resistant detecting mechanism in the present invention;

FIG. 17 is a schematic view showing the structure of a pressure-resistant detecting unit in the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.

Referring to fig. 1, the embodiment discloses a high-precision high-speed high-flexibility intelligent rail profile assembling and detecting device, which comprises a sawing and cutting thorn mechanism 1, a planing and milling mechanism 2, a transferring mechanism 3, a plastic strip penetrating mechanism 4, an extruding mechanism 5 and a pressure-resistant detecting mechanism 6, wherein the rail is cut by the sawing and cutting thorn mechanism 1 and the end part of the rail is polished, the rail is planed and milled by the planing and milling mechanism 2, the rail in the transmission process is transferred by the transferring mechanism 3 and is matched with the plastic strip penetrating mechanism 4 to plug the plastic strip into the rail, the plastic strip and the rail are extruded and attached again by the extruding mechanism 5, the plastic strip penetrating mechanism 4 is prevented from being plugged, and finally the pressure-resistant detecting mechanism 6 is used for pressure-resistant detecting the assembled plastic strip;

As shown in fig. 2, the sawing and deburring mechanism 1 comprises a first bracket 11, a first roller way transmission belt 12 is arranged on the first bracket 11, the first roller way transmission belt 12 is composed of a plurality of roller ways, all the roller ways are driven to rotate by a motor, tracks are transmitted by the first roller way transmission belt 12, a cutting and polishing assembly 13 is arranged on the first bracket 11 along the first roller way transmission belt 12, a placing rack 14 is arranged on the first bracket 11 at one side of the first roller way transmission belt 12, and the placing rack 14 is used for placing unprocessed tracks;

as shown in fig. 3 and 4, the cutting and polishing assembly 13 includes a first guide rail 131 respectively disposed on a first bracket 11 at two sides of a first roller conveyor belt 12, a first bottom plate 132 is disposed on the first guide rail 131, the first bottom plate 132 is disposed above the first roller conveyor belt 12, the first bottom plate 132 is pushed to move on the first guide rail 131 by a first linear module 133 disposed on the first bracket 11, two side plates 134 parallel to each other and perpendicular to the first bottom plate 132 are disposed on the first bottom plate 132, the parallel directions of the two side plates 134 are the same as the conveying direction of the first roller conveyor belt 12, a cutting wheel is disposed at an opening end of one end of each of the two side plates 134, an outer cover 135 is disposed at the outer side of the cutting wheel, the cutting wheel is driven to rotate by a first motor 136, the first motor 136 is disposed between the two side plates 134, the first motor 136 is mounted on a first mounting plate 137, the first mounting plate 137 is connected with a second guide rail 138 respectively disposed at an end surface of each side plate 134, the top of the two side plates 134 is provided with a second linear module 139 connected with the first mounting plate 137, the second linear module 139 drives the first mounting plate 137 to move up and down so as to drive the first motor 136 and the cutting wheel to move up and down, the opening end of the other end of the two side plates 134 is provided with a steel brush 1311, the steel brush 1311 is arranged at the bottom of the second mounting plate 1312 through a rotating shaft, a bearing is arranged between the rotating shaft and the second mounting plate 1312, a driven wheel is arranged on the rotating shaft, the end part of the rotating shaft positioned at the other side of the second mounting plate 1312 is also provided with the steel brush 1311, the polishing efficiency is improved through the two steel brushes 1311, the second mounting plate 1312 is provided with a driving wheel 1313, the driving wheel 1313 is positioned above the driven wheel, the driving wheel 1313 is driven to rotate through a second motor 1317 arranged at the other side of the second mounting plate 1312, the driving wheel and the driven wheel are driven through a 1314 belt, the second mounting plate 1312 is connected with a third guide rail 1315 respectively arranged on the end face of each side plate 134, a first air cylinder 1316 is arranged at the top of each side plate 134, and the first air cylinder 1316 pushes the second mounting plate 1312 to move up and down along the third guide rail 1315 so as to drive a second motor 1317 and a steel brush 1311 to move up and down;

As shown in fig. 4 and 5, the cutting and polishing assembly 13 further includes a first clamping assembly 15, a first clamping assembly 16, a second clamping assembly 17, a third clamping assembly 18, a second clamping assembly 19, and a fourth clamping assembly 10 sequentially disposed on the first frame 11 along the first roller conveyor 12, the first clamping assembly 15 being disposed between a set of adjacent two roller tables, the first clamping assembly 16 and the second clamping assembly 17 being disposed between a set of adjacent two roller tables, the third clamping assembly 18 and the second clamping assembly 19 being disposed between a set of adjacent two roller tables, the track being conveyed by the first roller conveyor 12, being clamped by the first clamping assembly 15, the second clamping assembly 17, the third clamping assembly 18, and the fourth clamping assembly 10 while being simultaneously compressed by the first clamping assembly 16 and the second clamping assembly 19 when being cut and polished, the first clamping assembly 15 comprises a second bottom plate 151 connected with the first bracket 11, one end of the second bottom plate 151 is provided with a first clamping plate 152, the second bottom plate 151 is provided with a movable second clamping plate 153, the second clamping plate 153 is pushed to move through a second air cylinder 154 arranged on the second bottom plate 151 so as to clamp a track by matching with the first clamping plate 152, the first clamping assembly 15, the second clamping assembly 17, the third clamping assembly 18 and the fourth clamping assembly 10 are of the same structure, the first clamping assembly 16 comprises a square frame body 161, the frame body 161 is pushed to lift through a third air cylinder 162 arranged on the first bracket 11 below, when the track passes through the frame body 161 in a transmission way, the third air cylinder 162 drives the frame body 161 to descend so as to compress the track, the first clamping assembly 16 and the second clamping assembly 17 are of the same structure, the third clamping assembly 18 and the second clamping assembly 19 are sequentially arranged below the first bottom plate 132, the first clamping assembly 15, the first compacting assembly 16 and the second clamping assembly 17 are sequentially arranged in front of the cutting wheel, the fourth clamping assembly 10 is arranged behind the steel brush 1311, a blocking assembly 101 is arranged between the second compacting assembly 17 and the third clamping assembly 18, the blocking assembly 101 is arranged below and behind the cutting wheel, the blocking assembly 101 comprises a stop block 102, the stop block 102 is driven to lift through an eleventh cylinder 103 at the bottom, and the rail is blocked by the lifting of the stop block 102, so that cutting is facilitated;

As shown in fig. 6 and 7, the cutting and polishing assembly 13 further includes a fixed length assembly 110 disposed on a second support 21 at one side of the second roller conveyor belt 22, the fixed length assembly 110 includes a sixth guide rail 111 disposed on the second support 21 at one side of the second roller conveyor belt 22, a first moving plate 112 is disposed on the sixth guide rail 111, a fifth mounting plate 113 is vertically disposed on the first moving plate 112, a seventh guide rail 114 is disposed at one side of the fifth mounting plate 113, a baffle 115 extending above the second roller conveyor belt 22 is disposed on the seventh guide rail 114, a tenth cylinder 116 driving the baffle 115 to lift up and down along the seventh guide rail 114 is disposed at the other side of the fifth mounting plate 113, a first belt 117 is disposed at the other side of the sixth guide rail 111, the first belt 117 is driven to rotate by a first driven wheel 1181 and a first driving wheel 1182 disposed on the second support 21, the first belt 117 is simultaneously connected with the first moving plate 112, the first belt 117 is driven to move along the sixth guide rail 111 by the rotation of the first belt 1182, and the other end of the baffle 111 is driven by the rotation of the first belt 1182 to move along the sixth guide rail 115;

As shown in fig. 6, 8 and 9, the planing and milling mechanism 2 comprises a second bracket 21 connected with a first bracket 11, a second roller way transmission belt 22 and a planing and milling assembly 23 are sequentially arranged on the second bracket 21, the planing and milling assembly 23 comprises a first base 231 with the inside hollow and fixed on the second bracket 21, at least two rows of roller groups are horizontally arranged on the first base 231, a track transportation channel is formed between the two rows of roller groups, each row of roller groups consists of a plurality of rollers 232, gears 233 coaxially connected with each roller 232 are arranged in the first base 231, all gears 233 of the same row are in meshed connection, the gear sets of the two rows are in meshed connection through at least one transmission gear 234, transmission between the two rows of gear sets is carried out through the transmission gear 234, a row of transmission wheels 235 are arranged on the first base 231 between the two rows of roller groups, and the track moves on the transmission wheels 235 when moving between the two rows of roller groups, the track is more convenient and fast to move through the driving wheel 235, a third mounting plate 236 connected with the first seat 231 is arranged above the first seat 231, a third motor 237 is arranged on the third mounting plate 236, the third motor 237 is connected with the roller 232 to drive the roller 232 to rotate, one roller 232 rotates to drive two rows of all rollers 232 to rotate, the two rows of all rollers 232 rotate to drive the track to move, a first mounting frame 238 is arranged on the third mounting plate 236, a plurality of cutters 239 arranged on the first mounting frame 238 are arranged between the two rows of roller groups, the tracks are planed and milled through the cutters 239 in the track moving process, a hold-down wheel 240 is arranged above the driving wheel 235 and is used for pressing the tracks during track planing and milling, the hold-down wheel 240 is pushed to lift up and down through a fourth cylinder 241 above, the fourth cylinder 241 is mounted on the second bracket 242, and the second mounting bracket 242 is mounted on the third mounting plate 236;

As shown in fig. 10 and 11, the transfer mechanism 3 comprises a third bracket 31 connected with the second bracket 21, a third roller way conveying belt 32 is arranged on the third bracket 31, a moving assembly 33 is arranged on the third bracket 31 along the third roller way conveying belt 32, the moving assembly 33 comprises a plurality of moving blocks 331 which are arranged side by side, at least two grooves 332 are arranged on each moving block 331, the two grooves 332 correspond to two stations, tracks are accommodated by the grooves 332, the bottoms of all the moving blocks 331 are connected by a first cross rod 333, second cross rods 334 are arranged in parallel on two sides of the first cross rod 333, twelfth air cylinders 335 for driving the first cross rod 333 are arranged at the bottoms of the second cross rods 334 on two sides, a plurality of twelfth air cylinders 335 are arranged, the first cross rod 333 is driven to lift by the twelfth air cylinders 335, the bottoms of the second cross rods 334 are connected with a plurality of fourth guide rails 336 which are horizontally and uniformly arranged on the third bracket 31, the bottoms of the second cross rods 334 are connected with fifth air cylinders 337 arranged on the third bracket 31, the bottoms of the second cross rods 334 are pushed by the fifth air cylinders 337 to move the second cross rods 334 back and forth along the fourth guide rails 336, the fourth guide rails 333, and the second cross rods 334 are pushed by the fifth air cylinders 337 to move back and forth along the fourth guide rails 333, and then the plastic strips 3 are conveyed to the extrusion mechanism 5, and then the plastic strips are extruded and conveyed to the plastic strips are conveyed to the extrusion mechanism 5;

As shown in fig. 12, 13 and 14, the plastic strip threading mechanism 4 and the extrusion mechanism 5 are arranged side by side on the fourth bracket 40; the plastic strip penetrating mechanism 4 comprises a fourth bracket 40 connected with the third bracket 31, the third bracket 31 and the fourth bracket 40 are provided with a plastic strip penetrating component 41, the plastic strip penetrating component 41 comprises a clamping device 42, a plastic strip conveying device 43 and a placement frame 44 which are sequentially arranged, the clamping device 42 comprises a third bottom plate 421 arranged on the third bracket 31, the third bottom plate 421 is provided with a fifth guide rail 422, the fifth guide rail 422 is provided with a moving plate 423, the third bottom plate 421 is provided with a sixth air cylinder 424 for pushing the moving plate 423 to move on the fifth guide rail 422, one end of the moving plate 423 is provided with a third clamping plate 425, the moving plate 423 is provided with a fourth clamping plate 426, the moving plate 423 is provided with a seventh air cylinder 427 for pushing the fourth clamping plate 426 to move, the track is clamped by the third clamping plate 425 and the fourth clamping plate 426 and the track is moved by the sixth air cylinder 424 to the plastic strip conveying device 43 so as to conveniently penetrate into the track; the plastic strip conveying device 43 comprises a fourth bottom plate 431 on a fourth bracket 40, a positioning frame 432 and a second base 433 with hollow inside are sequentially arranged on the fourth bottom plate 431, a guide block 434 is embedded and installed in the middle of the positioning frame 432, at least two profiling holes 435 for plastic strips to pass through are formed in the guide block 434, three rows of cylinder groups are arranged on the second base 433, a transmission channel of the plastic strips is formed between every two adjacent rows of cylinder groups, each row of cylinder groups consists of a plurality of cylinders 436, each cylinder 436 is connected with gears inside the second base 433, a middle row of gears is meshed with each other, two rows of gears on two sides are respectively meshed with a middle row of gears at the same time, each gear meshed with the middle and each gear meshed with the middle on the other side are not identical, for example, six gears are arranged on the middle row of gears, one row of gears on one side is provided with three first, third and fifth gears which are respectively meshed with the middle row of gears, the other row of gears on the other side is provided with three second, fourth and sixth gears which are respectively meshed with the middle row of gears, two plastic strips are moved in the same direction through the transmission meshing, a top plate 437 fixed with a fourth bottom plate 431 is arranged above the three rows of cylinder groups, a fourth motor 438 is arranged on the top plate 437, the fourth motor 438 is connected with one cylinder 436 below, one cylinder 436 is driven to rotate through the fourth motor 438, all cylinders 436 are driven to rotate, the movement of the plastic strips is driven by the rotation of one cylinder 436, an eighth cylinder 439 is arranged on the top plate 437, one end of the eighth cylinder 439 is connected with one end of a connecting rod 430 below the top plate 437, the other end of the connecting rod 430 is connected with a pushing member 4301, the pushing member 4301 is connected with the connecting rod 430 through a first rotating shaft 4302, the pushing member 4301 is driven to move by the eighth cylinder 439 so as to push the last section of plastic strip into the track, the pushing member 4301 comprises two pushing pieces 4303 which respectively extend to a position between two adjacent rows of cylinder groups, the distance between the two pushing pieces 4303 can enable a middle row of cylinder groups to pass through, the two pushing pieces 4303 are connected with a connecting plate 4304 at the top, the connecting plate 4304 is positioned above the middle row of cylinder groups and moves along with the connecting rod 430, the connecting plate 4304 is connected with the connecting rod 430 through a first rotating shaft 4302 so as to facilitate the pushing member 4301 to move back, the plastic strip is driven by the cylinder groups to pass through the profiling hole 435 and penetrate into the track, when the tail end of the plastic strip is not controlled to move into the track, the tail end of the plastic strip needs to be pushed to penetrate into the track through the two pushing pieces 4303, the mounting frame 44 is in a shape of a door, the mounting frame 44 is provided with a plurality of and is arranged on the fourth frame 40, the top of the mounting frame 44 is provided with a first groove 441 for placing the plastic strip, the first groove 441 is provided with two grooves 441, the plastic strip is manually placed into the first groove 441 and is placed into the plastic strip and is relatively easy to push the plastic strip into the track 43 by a soft part to be installed in the track;

As shown in fig. 15, after the track penetrates into the plastic strip, the track is lifted and moved to the entrance of the extrusion mechanism 5 through the transfer assembly 33, the extrusion mechanism 5 comprises a fourth roller way transmission belt 51 arranged on the fourth bracket 40, an extrusion assembly 52 arranged on the fourth bracket 40 along the fourth roller way transmission belt 51, the extrusion assembly 52 comprises a third base 521 arranged on the fourth bracket 40, two third bases 521 are arranged between two adjacent roller ways of the fourth roller way transmission belt 51, limiting blocks 522 are arranged on opposite surfaces of the third bases 521 on two sides, a gap for track movement is formed between the two limiting blocks 522, a guide rod 523 is also connected between the third bases 521 on two sides, the guide rod 523 is arranged above the two limiting blocks 522, two first moving blocks 524 are arranged on the guide rod 523, the bottom of each first moving block 524 is connected with an extrusion block extending to between the two limiting blocks 522, the top of each first moving block 524 is rotationally connected with one end of a connecting rod 526, the other end of each connecting rod 526 is simultaneously rotationally connected with a connecting block 527, the connecting block 527 is connected with one end of a rod 529 above through a connecting shaft 528, a door-shaped frame 530 which spans the connecting block 527 is also arranged between the third bases 521 on two sides, the rod 529 is rotationally connected with the top of the door-shaped frame 530 to form a fulcrum, a first guide rod 531 is arranged between the connecting block 527 and the top of the door-shaped frame 530, one end of the first guide rod 531 is fixed with the top of the door-shaped frame 530, the connecting block 527 can move up and down along the first guide rod 531, the other end of the rod 529 is connected with a ninth air cylinder 532 below, the ninth air cylinder 532 is arranged on a fourth mounting plate 533, the bottom of the ninth air cylinder 532 is hinged with the fourth mounting plate 533, the fourth mounting plate 533 is arranged on a fourth base 534, the fourth base 534 is arranged on a fourth bracket 40, one end of the rod body 529 is driven to tilt by the ninth air cylinder 532, the other end of the rod body 529 descends to drive the connecting block 527 to descend so as to push the two first moving blocks 524 to move towards two sides along the guide rod 523 respectively, at the moment, the two extrusion blocks 525 also move towards two sides so as to extrude the plastic strip and the rail again, and the plastic strip is prevented from moving in the rail, wherein the extrusion times depend on the length of the rail;

As shown in fig. 16 and 17, the pressure-resistant detecting mechanism 6 comprises a fifth bracket 61 connected with the fourth bracket 40, a fifth roller way transmission belt 62 is arranged on the fifth bracket 61, a pressure-resistant detecting component 63 is arranged on the fifth bracket 61 at one side of the fifth roller way transmission belt 62, the pressure-resistant detecting component 63 comprises a measuring bracket 631 arranged on the fifth bracket 61, a pressure-resistant instrument 632 is arranged on the measuring bracket 631, a first electrode component 633 and a second electrode component 634 are arranged on the fifth bracket 61 positioned at two sides of the measuring bracket 631, the first electrode component 633 comprises an eighth guide rail 6331 arranged on the fifth bracket 61, a vertical plate 6332 is arranged on the eighth guide rail 6331, the vertical plate 6332 is pushed to move on the eighth guide rail 6331 by a thirteenth air cylinder 6335 arranged on the fifth bracket 61, a ninth guide rail 6333 is arranged at one side of the vertical plate 6332, a sixth mounting plate 6334 is arranged on the ninth guide rail 6333, a fourteenth cylinder is arranged on the other side of the vertical plate 6332 and is connected with the sixth mounting plate 6334 through a first connecting rod 6336, so that the fourteenth cylinder pushes the sixth mounting plate 6334 to move up and down along a ninth guide rail 6333, a first electrode 6337 is arranged on the sixth mounting plate 6334, the second electrode component 634 comprises a seventh mounting plate 6341 arranged on a fifth bracket 61, a first vertical plate 6342 is arranged on the seventh mounting plate 6341, a tenth guide rail 6343 is arranged on one side of the first vertical plate 6342, an eighth mounting plate 6344 is arranged on the tenth guide rail 6343, a fifteenth cylinder is arranged on the other side of the first vertical plate 6342 and is connected with the eighth mounting plate 6344 through a second connecting rod 6345, a second electrode 6346 is arranged on the eighth mounting plate, the first electrode 6337 and the second electrode 6346 are both connected with a pressure-resistant instrument 632, the rails are made of aluminum materials, conductive sheets are arranged at the ends of plastic strips, the track is subjected to an insulation withstand voltage test by the first and second electrodes 6337 and 6346 being in contact with the conductive sheet and the track surface.

The invention can process track sections with different lengths, can realize flexible sharing of infinite track sections theoretically, and has good flexibility, high positioning precision and stable size.

The above-described embodiments are merely preferred embodiments for fully explaining the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present invention, and are intended to be within the scope of the present invention. The protection scope of the invention is subject to the claims.

Claims (3)

1. High-accuracy high-speed high-flexibility intelligent track section bar dress equipment of examining, its characterized in that: the device comprises a sawing and cutting mechanism, a planing and milling mechanism, a transferring mechanism, a plastic strip penetrating mechanism, an extrusion mechanism and a pressure-resistant detection mechanism, wherein the sawing and cutting mechanism comprises a first support, a first roller way conveying belt is arranged on the first support, a cutting and polishing assembly arranged on the first support along the first roller way conveying belt, the planing and milling mechanism comprises a second support connected with the first support, a second roller way conveying belt and a planing and milling assembly are sequentially arranged on the second support, the transferring mechanism comprises a third support connected with the second support, a third roller way conveying belt is arranged on the third support, a moving assembly arranged on the third support along the third roller way conveying belt, the plastic strip penetrating mechanism comprises a fourth support connected with the third support, a plastic strip penetrating assembly is arranged on the third support and the fourth support, the extrusion mechanism comprises a fourth conveying belt arranged on the fourth support, the extrusion assembly arranged on the fourth support along the fourth conveying belt is sequentially provided with the second support, the pressure-resistant detection mechanism comprises a fifth pressure-resistant detection assembly arranged on the fifth support along the fourth roller way conveying belt;

The cutting and polishing assembly comprises first guide rails which are respectively arranged on the first brackets on two sides of the first roller way transmission belt, a first bottom plate is arranged on the first guide rails, the first bottom plate is pushed to move on the first guide rails through a first linear module which is arranged on each first bracket, two side plates which are parallel to each other and are perpendicular to the first bottom plate are arranged on the first bottom plate, the parallel directions of the two side plates are the same as the transmission directions of the first roller way transmission belt, the opening ends of one end of each side plate are provided with cutting wheels, the cutting wheels are driven by a first motor to rotate, the first motor is arranged on a first mounting plate, the first mounting plate is connected with a second guide rail which is respectively arranged on the end surface of each side plate, the tops of the two side plates are provided with a second linear module which is connected with the first mounting plate, the first mounting plate is driven to move up and down through the second linear module, the first motor and the cutting wheels are driven to move up and down, the opening ends of the other ends of the two side plates are provided with a second driving wheel, the opening ends of the two side plates are provided with a second driving wheel are respectively arranged between the second driving wheel and the second mounting plate, the second driving wheel is connected with a second driving wheel through a rotating shaft, the driving wheel is arranged on the second mounting plate, the driving wheel is connected with the second mounting plate, the driving wheel is provided with a rotating shaft, the driving wheel is arranged on the top side plate, and the driving plate is provided with a steel brush, and the driving plate is respectively, and the driving plate is arranged on the top side and between driving plate and the driving plate and is respectively, and driven. The first air cylinder pushes the second mounting plate to move up and down along the third guide rail so as to drive the second motor and the steel brush to move up and down;

The cutting and polishing assembly further comprises a first clamping assembly, a first pressing assembly, a second clamping assembly, a third clamping assembly, a second pressing assembly and a fourth clamping assembly which are sequentially arranged on the first bracket along the first roller conveyor belt, wherein the third clamping assembly and the second pressing assembly are all arranged below the first bottom plate, the first clamping assembly, the first pressing assembly and the second clamping assembly are arranged in front of the cutting wheel, the fourth clamping assembly is arranged behind the steel brush, the first clamping assembly comprises a second bottom plate connected with the first bracket, one end of the second bottom plate is provided with a first clamping plate, a movable second clamping plate is arranged on the second bottom plate, the second clamping plate is pushed to move through a second air cylinder arranged on the second bottom plate so as to be matched with the first clamping plate to clamp a track, the first clamping assembly, the second clamping assembly, the third clamping assembly and the fourth clamping assembly are of the same structure, the first clamping assembly and the second clamping assembly are of the same lifting assembly are arranged below the first lifting assembly, and the first clamping assembly and the lifting assembly are arranged on the first lifting assembly;

The cutting and polishing assembly further comprises a fixed-length assembly arranged on the second support on one side of the second roller way conveying belt, the fixed-length assembly comprises a sixth guide rail arranged on the second support on one side of the second roller way conveying belt, a first moving plate is arranged on the sixth guide rail, a fifth mounting plate is vertically arranged on the first moving plate, a seventh guide rail is arranged on one side of the fifth mounting plate, a baffle plate extending to the upper side of the second roller way conveying belt is arranged on the seventh guide rail, a tenth air cylinder for driving the baffle plate to lift up and down along the seventh guide rail is arranged on the other side of the fifth mounting plate, a first belt is arranged on the other side of the sixth guide rail, the first belt drives rotation through a first driven wheel and a first driving wheel which are arranged on the second support in a front-back mode, the first driving wheel drives rotation through a fifth motor arranged on the second support, and the first belt is simultaneously connected with the first moving plate, and the first moving plate is driven to move along the sixth guide rail through rotation of the first belt;

the planing and milling assembly comprises a first base with a hollow interior, wherein at least two rows of roller groups are horizontally arranged on the first base, gears which are coaxially connected with each roller are arranged in the first base, all gears in the same row are in meshed connection, the gear groups in the two rows are in meshed connection through at least one transmission gear, a row of driving wheels are arranged on the first base between the two rows of roller groups, a third mounting plate connected with the first base is arranged above the first base, a third motor is arranged on the third mounting plate, the third motor is connected with the rollers so as to drive the rollers to rotate, one roller rotates so as to drive all the rollers in the two rows to rotate, a first mounting frame is arranged on the third mounting plate, a plurality of cutters arranged on the first mounting frame are arranged between the two rows of roller groups in a straight shape, a compression wheel is arranged above the driving wheels, the compression wheel is pushed to lift up and down by a fourth cylinder above the compression wheel, and the compression wheel is arranged on the second mounting plate;

The movable assembly comprises a plurality of movable blocks which are arranged side by side, at least two grooves are formed in each movable block, the bottoms of all the movable blocks are connected through a first cross rod, second cross rods are arranged on two sides of the first cross rod in parallel, a plurality of twelfth cylinders for driving the first cross rod are arranged at the bottoms of the second cross rods on two sides of the first cross rod, the first cross rod is driven to lift through the twelfth cylinders, the bottoms of the second cross rods are connected with a plurality of fourth guide rails which are horizontally and uniformly arranged on the third support, the bottoms of the second cross rods are connected with fifth cylinders arranged on the third support, and the second cross rods are pushed to move along the fourth guide rails through the fifth cylinders;

the plastic strip penetrating assembly comprises a clamping device, a plastic strip conveying device and a placement frame which are sequentially arranged, the clamping device comprises a third bottom plate arranged on a third support, a fifth guide rail is arranged on the third bottom plate, a moving plate is arranged on the fifth guide rail, a sixth cylinder pushing the moving plate to move on the fifth guide rail is arranged on the third bottom plate, a third clamping plate is arranged at one end of the moving plate, a fourth clamping plate is arranged on the moving plate, a seventh cylinder pushing the fourth clamping plate to move is arranged on the moving plate, a track is clamped through the third clamping plate and the fourth clamping plate, the plastic strip conveying device comprises a fourth bottom plate arranged on the fourth support, a positioning frame and a second hollow base are sequentially arranged on the fourth bottom plate, a guide block is embedded in the middle of the positioning frame, at least two profiling holes for the plastic strips to pass through are formed in the third base, three rows of cylinder groups are arranged on the second base, a transmission channel for the plastic strips is formed between the two rows of cylinder groups, a fourth motor is arranged on the moving plate, a fourth cylinder is arranged on the fourth cylinder group, a plurality of cylinder groups are meshed with the fourth cylinder groups, a fourth cylinder top plate is meshed with a fourth cylinder, a top plate is arranged on the fourth cylinder group, a top plate is meshed with a fourth cylinder, and a top plate is meshed with a top plate is arranged on the fourth cylinder, and a top plate is meshed with a top plate, and simultaneously, and a top plate is meshed with a top plate and is respectively and rotated, the eighth cylinder is connected with one end of a connecting rod located below the top plate, the other end of the connecting rod is connected with a pushing piece, the pushing piece is connected with the connecting rod through a first rotating shaft, the pushing piece is driven by the eighth cylinder to move so as to push the last section of plastic strip into the track, the placement frame is in a shape of a door, the placement frame is provided with a plurality of placement frames which are linearly arranged on the fourth support, and the top of the placement frame is provided with a first groove for placing the plastic strip.

2. The high-precision high-speed high-flexibility intelligent track profile assembling and detecting device according to claim 1, wherein the extruding assembly comprises a third base arranged on the fourth bracket, two third bases are arranged, limiting blocks are arranged on opposite surfaces of the third bases on two sides, a track moving gap is formed between the two limiting blocks, a guide rod is connected between the third bases on two sides, the guide rod is positioned above the two limiting blocks, two first moving blocks are arranged on the guide rod, an extruding block extending to the position between the two limiting blocks is connected to the bottom of each first moving block, the top of each first moving block is connected with one end of a connecting rod in a rotating mode, the other end of each connecting rod is connected with the connecting rod in a rotating mode at the same time, the connecting rod is connected with one end of a rod body above the connecting rod body through a connecting shaft, a door-shaped frame crossing the connecting block is arranged between the third bases at two sides, the rod body is rotationally connected with the top of the door-shaped frame to form a fulcrum, a first guide rod is arranged between the connecting block and the top of the door-shaped frame, one end of the first guide rod is fixed with the top of the door-shaped frame, the connecting block can move up and down along the first guide rod, the other end of the rod body is connected with a ninth cylinder below, the ninth cylinder is arranged on a fourth mounting plate, the bottom of the ninth cylinder is hinged with the fourth mounting plate, the fourth mounting plate is arranged on the fourth base, the fourth base is arranged on a fourth bracket, one end of the rod body is driven to tilt through the ninth cylinder, the other end of the rod body is driven to descend to drive the connecting block to push two first moving blocks to move towards two sides respectively along the guide rod, at this time, the two extrusion blocks also move towards two sides so as to extrude and fit the plastic strip and the rail again.

3. The high-precision high-speed high-flexibility intelligent track profile assembling and detecting device according to claim 1, wherein the pressure-resistant detection assembly comprises a measurement bracket installed on the fifth bracket, the measurement bracket is provided with a pressure-resistant instrument, the fifth bracket positioned on two sides of the measurement bracket is provided with a first electrode assembly and a second electrode assembly, the first electrode assembly comprises an eighth guide rail arranged on the fifth bracket, the eighth guide rail is provided with a vertical plate, the vertical plate is pushed to move on the eighth guide rail through a thirteenth air cylinder installed on the fifth bracket, one side of the vertical plate is provided with a ninth guide rail, the ninth guide rail is provided with a sixth mounting plate, the other side of the vertical plate is provided with a fourteenth air cylinder, the fourteenth air cylinder is connected with the sixth mounting plate through a first connecting rod, so that the sixth mounting plate is pushed to move up and down along the ninth guide rail by the fourteenth air cylinder, the sixth mounting plate is provided with a first electrode, the second electrode assembly comprises a seventh guide rail installed on the fifth bracket, the vertical plate is provided with a seventh air cylinder, the eighth guide rail is provided with a fifteenth mounting plate, the eighth guide rail is provided with a fifteenth air cylinder, and the eighth mounting plate is connected with the eighth guide plate.