CN116967832A - Machining center lathe with stop gear - Google Patents

Abstract

A machining center machine tool with a limiting mechanism belongs to the technical field of machining center machine tools, and aims to solve the problems that the existing scraps often generate splash phenomena, certain threats are generated for workers, and the operation of a limiting device is complex; according to the invention, through the protection mechanism and the limiting assembly, two sides of the processing table are connected with the protection mechanism, and the upper surface of the processing table is connected with the limiting assembly; when the scraps are absorbed into the absorption cylinder, the invention utilizes the attractive force between the electromagnetic connecting blocks to enable the triangular grinding blocks of the two groups to be mutually close to squeeze the scraps, reduces the volume of the scraps, is convenient for post-treatment, changes the air flow direction of the air pump, enables air to enter the inner hose, and finally is sprayed out by the nozzle, so that the triangular grinding blocks of the two groups are separated and sequentially and circularly operated to realize the squeezing treatment of the scraps.

Description

Machining center lathe with stop gear

Technical Field

The invention relates to the technical field of machining center machine tools, in particular to a machining center machine tool with a limiting mechanism.

Background

The numerical control machining center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for machining complex parts. The numerical control machining center is one of the numerical control machine tools with highest yield and most wide application in the world. The device has strong comprehensive processing capability, can finish more processing contents after one-time clamping of workpieces, has higher processing precision, is suitable for batch workpieces with medium processing difficulty, has the efficiency which is 5-10 times that of common equipment, can finish processing which cannot be finished by a plurality of common equipment, and is more suitable for single-piece processing or small-medium batch production with complex shape and high precision requirement.

At present machining center lathe is in the in-process of using, the piece often can take place to splash the phenomenon, produces certain threat to the staff, and the piece volume that splashes is unequal, and the departure direction is different, is difficult to accomplish and collects it for operational environment's safety problem has not been solved yet, secondly, before article processing, need carry out spacing fixedly to the article, at present the manual stop device that removes to the processing bench surface of manual, and the operation is comparatively loaded down with trivial details, consumes a large amount of operating time.

For this purpose, we propose a machining center machine tool with a limiting mechanism.

Disclosure of Invention

The invention aims to provide a machining center machine tool with a limiting mechanism, which solves the problems that in the prior art, in the using process of the existing machining center machine tool, scraps often generate splashing phenomenon, certain threat is generated to workers, the splashing scraps have different volumes and different flying directions, the splashing direction is difficult to collect, the safety problem of a working environment is not solved all the time, and in addition, before an object is machined, the object is required to be limited and fixed, and the limiting device is manually moved to the surface of a machining table, so that the operation is complicated and a large amount of working time is consumed.

In order to achieve the above purpose, the present invention provides the following technical solutions: the machining center machine tool with the limiting mechanism comprises a machining table, supporting vertical plates arranged on two sides of the machining table, and a machining assembly arranged above the machining table, wherein a main lifting rod is arranged in the supporting vertical plates, one end of the main lifting rod is connected with the machining assembly, two ends of the machining assembly are connected with the supporting vertical plates, a protection mechanism is arranged on the outer surface of the machining table, a pushing mechanism is arranged on one side of the machining table, and the limiting assembly is arranged on the upper surface of the machining table;

the protection mechanism comprises transverse connection plates arranged on two sides of the processing table, a protection plate arranged at one end of the transverse connection plates, a perforation formed in the outer surface of the protection plate, and an absorption mechanism arranged inside the perforation, wherein the upper surface of the transverse connection plates is provided with telescopic branch pipes, and the transverse connection plates are connected with the protection plate through the telescopic branch pipes.

Further, the absorption mechanism comprises an absorption cylinder arranged inside the perforation, an induction module arranged on the outer surface of the absorption cylinder, and an air pump arranged at one end of the absorption cylinder, wherein one end of the air pump is provided with an outer connecting pipe, two groups of absorption cylinders are arranged on each group of protection plates, a processing module is arranged inside the induction module, a temperature induction module is arranged at one end of the processing module, a distance calculation module is connected with one end signal of the temperature induction module, a comparison module is arranged at one side of the distance calculation module, and a nearby selection module is connected with one end signal of the comparison module.

Further, the temperature of the air near the absorption cylinder is detected through the temperature sensing module, the distance between the position at the processing position and the absorption cylinder is calculated through the distance calculating module, the two groups of data are compared through the comparison module, and finally the distance is selected to be relatively smaller through the nearby selection module.

Further, the absorption barrel comprises a triangular grinding block arranged in the absorption barrel, an electromagnetic connecting block and a nozzle arranged on one side of the triangular grinding block, an inner hose arranged in the triangular grinding block, and a control tube arranged at one end of the inner hose, wherein the other end of the inner hose is communicated with the nozzle, the triangular grinding block is provided with two groups, the triangular grinding blocks of the two groups are magnetically connected through the electromagnetic connecting block, a guide rail plate is arranged on the inner wall of the absorption barrel, a threading rod is arranged in the guide rail plate, one side of the triangular grinding block is provided with a butting block, one end of the butting block is provided with a reset spring, one end of the reset spring is connected with the inner wall of the absorption barrel, the outer surface of the butting block is provided with a threading block, and the threading block is movably connected with the threading rod.

Further, the upper surface of processing platform is provided with the spacing groove, and the travel groove and the screens groove have been seted up to the both sides of processing platform, and processing platform is connected with spacing subassembly through the spacing groove, and processing platform is connected with supporting the riser through the travel groove, and processing platform is connected with the transverse connection board through the screens groove, and pushing mechanism is including setting up the stand in processing platform one end, sets up the horizontal pole on the stand surface to and set up the electric putter in horizontal pole one side, and electric putter's one end is connected with the transverse connection board.

Further, spacing subassembly is including setting up at the inside one-level T type piece of spacing groove and second grade T type piece, set up electromagnetic suction plate A at one-level T type piece lower extreme, and set up electromagnetic suction plate B at second grade T type piece lower extreme, one-level T type piece, second grade T type piece, electromagnetic suction plate A and electromagnetic suction plate B's inside all is provided with the conducting column, spacing subassembly is still including setting up at the inside deposit power of processing platform, electromagnetic suction plate A, deposit power, all be connected with the wire between electromagnetic suction plate B and the one-level T type piece, the upper end of second grade T type piece is provided with the locating part.

Further, processing subassembly is including setting up the installation panel on supporting the riser surface, offer the heavy groove on the installation panel surface to and set up the flexible push rod in heavy inslot portion, the one end of flexible push rod is connected with heavy inslot wall, and the other end of flexible push rod is provided with installs the box, is provided with the mounting disc on the surface of installation box, is provided with the butt joint sleeve on the surface of mounting disc, and butt joint sleeve's one end is provided with the locking seat, and the inside of locking seat is provided with the processing cutter.

Further, the upper jaw of the processing table is provided with a fine hole groove and a bottom groove, the bottom of the limit groove is communicated with the bottom groove, the limit groove is provided with five groups, the limit grooves of the five groups are communicated through the fine hole groove, a plugging plate is arranged in the fine hole groove, a pressing spring is arranged on the inner wall of the bottom groove, one end of the pressing spring is provided with a magnetic thin plate, and one end of the magnetic thin plate is connected with the plugging plate.

Further, be provided with horizontal telescopic link on the inner wall of processing platform, the one end of horizontal telescopic link is provided with the butt joint magnetic path, and butt joint magnetic path is connected with magnetism sheet metal magnetism, and the inside of processing platform still is provided with the center pole, is provided with the striker plate on the surface of center pole, and the both ends of center pole are provided with the gear train.

Further, the inside of processing platform still is provided with the dwang, and the both ends of dwang all are provided with the magnetic surface and rotate the seat, are provided with the squeeze roll on the surface of dwang, and the dwang is connected with the center pole through the gear train, and the magnetic surface rotates the seat and sets up in same horizontal plane with the screens groove, and the magnetic surface rotates the seat and is connected with transverse plate magnetism.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a machining center machine tool with a limiting mechanism, wherein transverse connection plates are arranged on two sides of a machining table, a protection plate is arranged at one end of each transverse connection plate, a perforation is arranged on the outer surface of each protection plate, an absorption mechanism is arranged in each perforation, a telescopic branch pipe is arranged on the upper surface of each transverse connection plate, each transverse connection plate is connected with each protection plate through the corresponding telescopic branch pipe, an absorption cylinder is arranged in each perforation, an induction module is arranged on the outer surface of each absorption cylinder, an air pump is arranged at one end of each absorption cylinder, an outer connection pipe is arranged at one end of each air pump, two groups of absorption cylinders are arranged on each protection plate, a processing module is arranged in each induction module, a temperature induction module is arranged at one end of each processing module, a distance calculation module is in signal connection with one end of each comparison module, a near selection module is in signal connection with one end of each comparison module, wherein the temperature of air near the absorption barrel is detected by the temperature sensing module, the distance between the position at the processing position and the absorption barrel is calculated by the distance calculating module, the two groups of data are compared by the comparison module, the absorption barrel closest to the workpiece to be processed is utilized to absorb scraps by selecting the relatively smaller distance by the nearby selection module, the energy consumption is saved, the inside of the absorption barrel is provided with a triangular grinding block, one side of the triangular grinding block is provided with an electromagnetic connecting block and a nozzle, the inside of the triangular grinding block is provided with an inner hose, one end of the inner hose is provided with a control tube, the other end of the inner hose is communicated with the nozzle, the triangular grinding block is provided with two groups of triangular grinding blocks which are magnetically connected by the electromagnetic connecting block, the inner wall of the absorption barrel is provided with a guide rail plate, the inside of the guide rail plate is provided with a threading rod, one side of triangle abrasive brick is provided with the butt joint piece, the one end of butt joint piece is provided with reset spring, reset spring's one end is connected with the absorption section of thick bamboo inner wall, be provided with on the surface of butt joint piece and wear to draw the piece, wear to draw the piece and wear to draw pole swing joint, when the piece is absorbed to the absorption section of thick bamboo in, utilize the attraction between the electromagnetism piece that links, make two sets of triangle abrasive bricks be close to each other, extrude the piece, reduce the volume of piece, be convenient for post-treatment, change the air current direction of air pump simultaneously, make gas enter into in the hose, at last by the nozzle blowout, make two sets of triangle abrasive bricks separate, cyclic operation in proper order, realize the extrusion to the piece.

2. According to the machining center machine tool with the limiting mechanism, the first-stage T-shaped block and the second-stage T-shaped block are arranged in the limiting groove, the electromagnetic suction plate A is arranged at the lower end of the first-stage T-shaped block, the electromagnetic suction plate B is arranged at the lower end of the second-stage T-shaped block, the conductive columns are arranged in the first-stage T-shaped block, the second-stage T-shaped block, the electromagnetic suction plate A and the electromagnetic suction plate B, the storage power supply is arranged in the machining table, a wire is connected between the electromagnetic suction plate A, the storage power supply, the electromagnetic suction plate B and the first-stage T-shaped block, the upper end of the second-stage T-shaped block is provided with the limiting piece, the storage power supply can form a complete loop through connecting the first-stage T-shaped block with the electromagnetic suction plate A, the electromagnetic suction plate B is attached with magnetism, so that the second-stage T-shaped block is fixed and limited, and conversely, when the first-stage T-shaped block is not contacted with the electromagnetic suction plate A, the electromagnetic suction plate B is not connected with the storage power supply, the electromagnetic suction plate B is not provided with magnetism, the second-stage T-shaped block is convenient to take down the second-stage T-shaped block, the limiting piece is convenient to take down, and the limiting piece is placed on the whole assembly and the whole assembly is placed on the worktable, and the limiting assembly is stable when the limiting assembly is placed on the whole assembly is long, and the limiting assembly is placed on the limiting assembly is on the whole limiting assembly is on the limiting assembly, and can be placed on the limiting assembly, and on the limiting assembly is on the limiting assembly on the workpiece on the limiting assembly.

3. According to the machining center machine tool with the limiting mechanism, the upper jaw of the machining table is provided with the fine hole groove and the bottom groove, the bottoms of the limiting grooves are communicated with the bottom groove, the limiting grooves are provided with five groups, the limiting grooves of the five groups are communicated through the fine hole groove, the inside of the fine hole groove is provided with the plugging plate, the pressing spring is arranged on the inner wall of the bottom groove, one end of the pressing spring is provided with the magnetic thin plate, one end of the magnetic thin plate is connected with the plugging plate, the inner wall of the machining table is provided with the horizontal telescopic rod, one end of the horizontal telescopic rod is provided with the abutting magnetic block, the abutting magnetic block is magnetically connected with the magnetic thin plate, the inside of the machining table is also provided with the center rod, the outer surface of the center rod is provided with the stop plate, the two ends of the center rod are provided with the gear sets, the inside of the machining table is also provided with the rotating rod, the two ends of the rotating rod are respectively provided with the magnetic surface rotating seats, the outer surface of the rotating rod is provided with the pressing roller, the rotating rod is connected with the center rod, the magnetic surface rotating seat is arranged in the same horizontal plane with the clamping groove, one end of the magnetic surface rotating seat is connected with the plugging plate, after the machining of a workpiece is completed, the inner surface of the machining table is provided with the horizontal telescopic rod, the horizontal telescopic rod can be conveniently rotated, and the waste chips can move down through the sliding plate, and can conveniently move down the horizontal telescopic rod can reach the bottom plate, and can conveniently move, and can run down the bottom plate, and can run down and can conveniently, and can run down the waste chip, and can run down and run down the bottom plate and can conveniently and can run down the waste chip through the bottom plate and run through the rotating plate.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a machining center machine tool with a limiting mechanism;

FIG. 2 is a schematic view of a machining center machine tool machining table with a limiting mechanism;

FIG. 3 is a schematic view of a protective mechanism of a machining center machine tool with a limiting mechanism;

FIG. 4 is a schematic diagram of the absorption mechanism of the machining center machine tool with the limiting mechanism;

FIG. 5 is a schematic view of a limit assembly of a machining center machine tool with a limit mechanism according to the present invention;

FIG. 6 is a schematic view of a machining assembly of a machining center with a limiting mechanism according to the present invention;

FIG. 7 is a schematic view of a machining center machine tool mounting box with a limiting mechanism;

FIG. 8 is a schematic view of the internal structure of a machining center machine tool machining table with a limiting mechanism;

FIG. 9 is a schematic view of the internal structure of an absorption cylinder of a machining center machine tool with a limiting mechanism;

FIG. 10 is a block diagram of a machining center tool sensing module with a limiting mechanism according to the present invention.

In the figure: 1. a processing table; 11. a limit groove; 12. a moving groove; 13. a clamping groove; 14. a fine pore groove; 141. a plugging plate; 15. a bottom groove; 151. a magnetic sheet; 152. pressing the spring; 16. a horizontal telescopic rod; 161. butting magnetic blocks; 17. a central rod; 171. a striker plate; 172. a gear set; 18. a rotating lever; 181. a squeeze roll; 182. a magnetic surface rotating seat; 2. supporting a vertical plate; 3. a main lifting rod; 4. processing the assembly; 41. installing a panel; 42. sinking grooves; 43. a telescopic push rod; 44. installing a box body; 45. a mounting plate; 46. a butt joint sleeve; 47. a locking seat; 48. machining a cutter; 5. a protective mechanism; 51. a protection plate; 52. a transverse connection plate; 53. perforating; 54. an absorption mechanism; 541. an absorption cylinder; 5411. triangular grinding blocks; 5412. an electromagnetic armature block; 5413. a nozzle; 5414. an inner hose; 5415. a control tube; 5416. a guide rail plate; 5417. threading the guide rod; 5418. a butt joint block; 54181. a return spring; 5419. threading the block; 542. an induction module; 5421. a processing module; 5422. a temperature sensing module; 5423. a distance calculation module; 5424. comparison module; 5425. a proximity selection module; 543. an air pump; 544. an outer connecting pipe; 55. a telescopic branch pipe; 6. a pushing mechanism; 61. a column; 62. a cross bar; 63. an electric push rod; 7. a limit component; 71. a first-stage T-shaped block; 72. a conductive post; 73. a wire; 74. an electromagnetic suction plate A; 75. a storage power supply; 76. an electromagnetic suction plate B; 77. a second-level T-shaped block; 78. and a limiting piece.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order to solve the technical problem of how to absorb splashed debris, as shown in fig. 1-4, 9 and 10, the following preferred technical solutions are provided:

the utility model provides a machining center lathe with stop gear, including processing platform 1, the support riser 2 of setting in processing platform 1 both sides, and the processing subassembly 4 of setting in processing platform 1 top, the inside of supporting riser 2 is provided with main lifter 3, the one end of main lifter 3 is connected with processing subassembly 4, the both ends of processing subassembly 4 are connected with support riser 2, be provided with protection machanism 5 on the surface of processing platform 1, one side of processing platform 1 is provided with pushing mechanism 6, the upper surface of processing platform 1 is provided with stop subassembly 7, protection machanism 5 is including setting up the cross bar 52 in processing platform 1 both sides, set up the guard plate 51 in cross bar 52 one end, set up the perforation 53 on guard plate 51 surface, and set up the inside absorption mechanism 54 in perforation 53, the upper surface of cross bar 52 is provided with telescopic branch 55, cross bar 52 is connected with guard plate 51 through telescopic branch 55.

The absorption mechanism 54 includes an absorption tube 541 disposed inside the perforation 53, an induction module 542 disposed on an outer surface of the absorption tube 541, and an air pump 543 disposed at one end of the absorption tube 541, wherein an outer adapter 544 is disposed at one end of the air pump 543, two groups of absorption tubes 541 are disposed on each group of protection plates 51, a processing module 5421 is disposed inside the induction module 542, a temperature induction module 5422 is disposed at one end of the processing module 5421, a distance calculation module 5423 is connected to one end of the temperature induction module 5422, a comparison module 5424 is disposed at one side of the distance calculation module 5423, and a proximity selection module 5425 is connected to one end of the comparison module 5424.

The absorption tube 541 includes a triangle grinding block 5411 disposed inside the absorption tube 541, an electromagnetic armature block 5412 and a nozzle 5413 disposed at one side of the triangle grinding block 5411, an inner hose 5414 disposed inside the triangle grinding block 5411, and a control tube 5415 disposed at one end of the inner hose 5414, the other end of the inner hose 5414 is communicated with the nozzle 5413, the triangle grinding block 5411 is provided with two groups, the triangle grinding blocks 5411 of the two groups are magnetically connected through the electromagnetic armature block 5412, a guide rail plate 5416 is disposed on the inner wall of the absorption tube 541, a threading rod 5417 is disposed inside the guide rail plate 5416, a butt joint block 5418 is disposed at one side of the triangle grinding block 5411, a return spring 54181 is disposed at one end of the butt joint block 5418, one end of the return spring 54181 is connected with the inner wall of the absorption tube 541, a threading block 5419 is disposed on the outer surface of the butt joint block 5418, and the threading block 5419 is movably connected with the threading rod 5417.

Specifically, the temperature of the air near the absorption cylinder 541 is detected by the temperature sensing module 5422, the distance between the position at the processing position and the absorption cylinder 541 is calculated by the distance calculating module 5423, the two groups of data are compared by the comparison module 5424, the nearby selection module 5425 selects the relatively smaller distance, the absorption of the chips by the absorption cylinder 541 closest to the workpiece to be processed is realized, the energy consumption is saved, when the chips are absorbed into the absorption cylinder 541, the attractive force between the electromagnetic connecting blocks 5412 is utilized to enable the triangular grinding blocks 5411 of the two groups to approach each other, the chips are extruded, the volume of the chips is reduced, the post processing is facilitated, the airflow direction of the air pump 543 is changed, the air enters the inner hose 5414, and finally the two groups of triangular grinding blocks 5411 are ejected by the nozzle 5413, so that the two groups of triangular grinding blocks 5411 are separated, and the chips are sequentially circulated to realize the extrusion processing of the chips.

In order to solve the technical problem of how to more conveniently place the limiting component 7, as shown in fig. 2 and 5, the following preferred technical scheme is provided:

the upper surface of processing platform 1 is provided with spacing groove 11, and movable groove 12 and screens groove 13 have been seted up to the both sides of processing platform 1, and processing platform 1 is connected with spacing subassembly 7 through spacing groove 11, and processing platform 1 is connected with supporting riser 2 through movable groove 12, and processing platform 1 is connected with transverse connection board 52 through screens groove 13, and pushing mechanism 6 is including setting up stand 61 at processing platform 1 one end, and the horizontal pole 62 of setting on stand 61 surface to and the electric putter 63 of setting on one side of horizontal pole 62, and electric putter 63's one end is connected with transverse connection board 52.

The limiting assembly 7 comprises a first-stage T-shaped block 71 and a second-stage T-shaped block 77 which are arranged in the limiting groove 11, an electromagnetic suction plate A74 which is arranged at the lower end of the first-stage T-shaped block 71, and an electromagnetic suction plate B76 which is arranged at the lower end of the second-stage T-shaped block 77, wherein conductive columns 72 are arranged in the first-stage T-shaped block 71, the second-stage T-shaped block 77, the electromagnetic suction plate A74 and the electromagnetic suction plate B76, a storage power supply 75 which is arranged in the processing table 1, a conducting wire 73 is connected between the electromagnetic suction plate A74, the storage power supply 75, the electromagnetic suction plate B76 and the first-stage T-shaped block 71, and a limiting piece 78 is arranged at the upper end of the second-stage T-shaped block 77.

Specifically, through being connected one-level T type piece 71 with electromagnetism suction plate A74, deposit power 75 can constitute a complete return circuit, realize the circular telegram to electromagnetism suction plate B76, make electromagnetism suction plate B76 attach magnetism, thereby fix spacing to second grade T type piece 77, conversely, when one-level T type piece 71 and electromagnetism suction plate A74 do not contact, electromagnetism suction plate B76 does not switch on with deposit power 75, electromagnetism suction plate B76 does not possess magnetism, be convenient for take off second grade T type piece 77, thereby realize the laying and the dismantlement of locating part 78, on the one hand can let spacing subassembly 7 whole be placed on processing bench 1 for a long time, the trouble that spacing subassembly 7 need be placed in every work has been reduced, on the other hand, stability when fixed work piece of spacing subassembly 7 is improved.

In order to solve the technical problem of how to clean the scraps on the surface of the processing table 1, as shown in fig. 6-8, the following preferred technical scheme is provided:

the processing subassembly 4 is including setting up the installation panel 41 on supporting riser 2 surface, offer the heavy groove 42 on the installation panel 41 surface to and set up the inside flexible push rod 43 of heavy groove 42, the one end of flexible push rod 43 is connected with heavy groove 42 inner wall, the other end of flexible push rod 43 is provided with installs box 44, be provided with mounting plate 45 on the surface of installing box 44, be provided with butt joint sleeve 46 on the surface of mounting plate 45, the one end of butt joint sleeve 46 is provided with locking seat 47, the inside of locking seat 47 is provided with processing cutter 48.

The upper jaw of the processing table 1 is provided with a fine hole groove 14 and a bottom groove 15, the bottom of a limit groove 11 is communicated with the bottom groove 15, the limit groove 11 is provided with five groups, the limit grooves 11 of the five groups are communicated with each other through the fine hole groove 14, a plugging plate 141 is arranged in the fine hole groove 14, a pressing spring 152 is arranged on the inner wall of the bottom groove 15, one end of the pressing spring 152 is provided with a magnetic thin plate 151, and one end of the magnetic thin plate 151 is connected with the plugging plate 141.

The inner wall of the processing table 1 is provided with a horizontal telescopic rod 16, one end of the horizontal telescopic rod 16 is provided with a butt-joint magnetic block 161, the butt-joint magnetic block 161 is magnetically connected with the magnetic sheet 151, the inside of the processing table 1 is also provided with a center rod 17, the outer surface of the center rod 17 is provided with a striker plate 171, and two ends of the center rod 17 are provided with gear sets 172.

The inside of processing platform 1 still is provided with dwang 18, and the both ends of dwang 18 all are provided with magnetic surface rotation seat 182, are provided with squeeze roll 181 on the surface of dwang 18, and dwang 18 is connected with central pole 17 through gear train 172, and magnetic surface rotation seat 182 and screens groove 13 set up in same horizontal plane, and magnetic surface rotation seat 182 and transverse connection board 52 magnetism are connected.

Specifically, after the workpiece is machined, more scraps can remain on the surface of the machining table 1, especially the limit groove 11 is in most, the butt-joint magnetic block 161 drives the magnetic sheet 151 to move through the extension of the horizontal telescopic rod 16, the purpose of opening the bottom groove 15 is achieved, the scraps can be conveniently leaked downwards, the rotating rod 18 is driven to move through the movement of the transverse plate 52, the fallen scraps are extruded, meanwhile, the rotating rod 18 in rotation can drive the central rod 17 to rotate, the baffle plate 171 can strike the scraps, the scraps are separated together, the later treatment is convenient, and the working efficiency is improved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims (10)

1. Machining center lathe with stop gear, including processing platform (1), set up support riser (2) in processing platform (1) both sides to and set up processing subassembly (4) in processing platform (1) top, the inside of supporting riser (2) is provided with main lifter (3), and the one end and the processing subassembly (4) of main lifter (3) are connected, and the both ends and the support riser (2) of processing subassembly (4) are connected, its characterized in that: the outer surface of the processing table (1) is provided with a protection mechanism (5), one side of the processing table (1) is provided with a pushing mechanism (6), and the upper surface of the processing table (1) is provided with a limit component (7);

the protection mechanism (5) comprises transverse connection plates (52) arranged on two sides of the processing table (1), protection plates (51) arranged at one ends of the transverse connection plates (52), through holes (53) formed in the outer surfaces of the protection plates (51), and absorption mechanisms (54) arranged inside the through holes (53), telescopic branch pipes (55) are arranged on the upper surfaces of the transverse connection plates (52), and the transverse connection plates (52) are connected with the protection plates (51) through the telescopic branch pipes (55).

2. A machining center machine with a limit mechanism as claimed in claim 1, wherein: the absorption mechanism (54) comprises an absorption cylinder (541) arranged in the perforation (53), an induction module (542) arranged on the outer surface of the absorption cylinder (541), and an air pump (543) arranged at one end of the absorption cylinder (541), wherein an outer connecting pipe (544) is arranged at one end of the air pump (543), two groups of absorption cylinders (541) are arranged on each group of protection plates (51), a processing module (5421) is arranged in the induction module (542), a temperature induction module (5422) is arranged at one end of the processing module (5421), one end of the temperature induction module (5422) is connected with a distance calculation module (5423), a comparison module (5424) is arranged at one side of the distance calculation module (5423), and a near selection module (5425) is connected with one end of the comparison module (5424) in a signal mode.

3. A machining center machine with a limit mechanism as claimed in claim 2, wherein: the temperature of air near the absorption cylinder (541) is detected by the temperature sensing module (5422), the distance between the position at the processing position and the absorption cylinder (541) is calculated by the distance calculating module (5423), the two groups of data are compared by the comparison module (5424), and finally the distance is selected to be relatively smaller by the nearby selection module (5425).

4. A machining center machine with a limit mechanism as claimed in claim 3, wherein: the absorption barrel (541) comprises a triangular grinding block (5411) arranged inside the absorption barrel (541), an electromagnetic connecting block (5412) and a nozzle (5413) arranged on one side of the triangular grinding block (5411), an inner hose (5414) arranged inside the triangular grinding block (5411), and a control tube (5415) arranged at one end of the inner hose (5414), wherein the other end of the inner hose (5414) is communicated with the nozzle (5413), the triangular grinding block (5411) is provided with two groups, the triangular grinding blocks (5411) of the two groups are magnetically connected through the electromagnetic connecting block (5412), a guide rail plate (5416) is arranged on the inner wall of the absorption barrel (541), a penetrating rod (5417) is arranged inside the guide rail plate (5416), one side of the triangular grinding block (5411) is provided with a butt joint block (5418), one end of the butt joint block (5418) is provided with a reset spring (54181), one end of the reset spring (54181) is connected with the inner wall of the absorption barrel (541), and the outer surface of the butt joint block (5418) is provided with a penetrating block (5419) and the penetrating rod (5417) is movably connected with the penetrating rod (5417).

5. A machining center machine with a limit mechanism as set forth in claim 4, wherein: the upper surface of processing platform (1) is provided with spacing groove (11), move groove (12) and screens groove (13) have been seted up to the both sides of processing platform (1), processing platform (1) are connected with spacing subassembly (7) through spacing groove (11), processing platform (1) are connected with support riser (2) through moving groove (12), processing platform (1) are connected with transverse connection board (52) through screens groove (13), pushing mechanism (6) are including stand (61) that set up in processing platform (1) one end, cross bar (62) of setting on stand (61) surface, and set up electric putter (63) in one side of cross bar (62), the one end of electric putter (63) is connected with transverse connection board (52).

6. A machining center machine with a limit mechanism as set forth in claim 5, wherein: limiting component (7) including setting up at inside one-level T type piece (71) of spacing groove (11) and second grade T type piece (77), set up electromagnetic suction plate A (74) at one-level T type piece (71) lower extreme, and set up electromagnetic suction plate B (76) at second grade T type piece (77) lower extreme, the inside of one-level T type piece (71), second grade T type piece (77), electromagnetic suction plate A (74) and electromagnetic suction plate B (76) all is provided with electrically conductive post (72), limiting component (7) still including setting up at the inside deposit power (75) of processing platform (1), electromagnetic suction plate A (74), deposit power (75), all be connected with wire (73) between electromagnetic suction plate B (76) and the one-level T type piece (71), the upper end of second grade T type piece (77) is provided with spacing piece (78).

7. A machining center machine with a limit mechanism as set forth in claim 6, wherein: the processing subassembly (4) is including setting up installation panel (41) on supporting riser (2) surface, set up heavy groove (42) on installation panel (41) surface to and set up flexible push rod (43) inside heavy groove (42), the one end of flexible push rod (43) is connected with heavy groove (42) inner wall, and the other end of flexible push rod (43) is provided with install box (44), is provided with mounting plate (45) on the surface of mounting box (44), is provided with butt joint sleeve (46) on the surface of mounting plate (45), and the one end of butt joint sleeve (46) is provided with locking seat (47), and the inside of locking seat (47) is provided with processing cutter (48).

8. A machining center machine with a limit mechanism as set forth in claim 7, wherein: the upper jaw of processing platform (1) is provided with pore groove (14) and kerve (15), the bottom and the kerve (15) of spacing groove (11) are linked together, spacing groove (11) are provided with five groups, be linked together through pore groove (14) between five groups's spacing groove (11), the inside of pore groove (14) is provided with shutoff board (141), set up on the inner wall of kerve (15) and press spring (152), the one end of pressing spring (152) is provided with magnetic sheet (151), the one end and the shutoff board (141) of magnetic sheet (151) are connected.

9. A machining center machine with a limiting mechanism as set forth in claim 8, wherein: be provided with horizontal telescopic link (16) on the inner wall of processing platform (1), the one end of horizontal telescopic link (16) is provided with butt joint magnetic path (161), and butt joint magnetic path (161) are connected with magnetism sheet metal (151) magnetism, and the inside of processing platform (1) still is provided with center pole (17), is provided with striker plate (171) on the surface of center pole (17), and the both ends of center pole (17) are provided with gear train (172).

10. A machining center machine with a limiting mechanism as claimed in claim 9, wherein: the inside of processing platform (1) still is provided with dwang (18), and the both ends of dwang (18) all are provided with magnetic surface rotation seat (182), are provided with squeeze roll (181) on the surface of dwang (18), and dwang (18) are connected with central pole (17) through gear train (172), and magnetic surface rotation seat (182) and screens groove (13) set up in same horizontal plane, and magnetic surface rotation seat (182) are connected with transverse connection board (52) magnetism.