CN214517650U - Machine tool capable of saving machining beats - Google Patents
Machine tool capable of saving machining beats Download PDFInfo
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- CN214517650U CN214517650U CN202023198649.9U CN202023198649U CN214517650U CN 214517650 U CN214517650 U CN 214517650U CN 202023198649 U CN202023198649 U CN 202023198649U CN 214517650 U CN214517650 U CN 214517650U
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Abstract
The utility model relates to a save lathe of processing beat belongs to the lathe field, including the lathe bed and set up in the main shaft of lathe bed, its characterized in that: the lathe bed is provided with an auxiliary shaft, a cutter platform body is arranged at the position, opposite to the auxiliary shaft assembly, of the lathe bed, a cutter tower assembly is arranged at the position, located on one side of the main shaft, of the surface of the lathe bed, a feeding assembly used for moving the auxiliary shaft to a position where the auxiliary shaft is connected with the main shaft is further arranged on the lathe bed, and a cutter assembly and an object placing assembly used for storing a blank in advance are arranged on one side, facing the auxiliary shaft, of the cutter platform body. The processing method has the advantages that the linkage processing of the main shaft and the auxiliary shaft is realized, the processing beat can be greatly shortened, and the processing efficiency is improved.
Description
Technical Field
The application relates to the field of machine tools, in particular to a machine tool capable of saving machining beats.
Background
A machine tool is mainly an apparatus for precisely machining a rotating workpiece with a tool such as a turning tool, and the machine tool is mainly composed of a support member, a speed change mechanism, a feed mechanism, a spindle box, a lubrication system, and the like.
In the related art, when a complex workpiece is machined, machining cannot be completed only by one group of cutter sets, so that the workpiece needs to be clamped to another cutter set for continuous finish machining after primary machining is completed.
In view of the above-mentioned related art, the inventors thought that there was a problem that the processing tact was too long, resulting in low efficiency.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem that the machining beat of a complex workpiece is too long, the application provides a machine tool capable of saving the machining beat.
The application provides a save lathe of processing beat adopts following technical scheme:
the machine tool capable of saving machining beats comprises a machine tool body and a main shaft arranged on the machine tool body, wherein the machine tool body is provided with an auxiliary shaft, a cutter platform body is arranged at the position, opposite to the auxiliary shaft assembly, of the machine tool body, a cutter tower assembly is arranged at the position, on the surface of the machine tool body, on one side of the main shaft, a feeding assembly used for moving the auxiliary shaft to a position where the auxiliary shaft is connected with the main shaft is arranged, and a cutter assembly and an object placing assembly used for storing blanks in advance are arranged on one side, facing the auxiliary shaft, of the cutter platform body.
By adopting the technical scheme, the blank clamped by the auxiliary shaft can be subjected to primary processing by the cutter assembly, the auxiliary shaft is moved to a station butted with the main shaft under the driving of the feeding assembly after the primary processing is finished, so that the workpiece of the auxiliary shaft is clamped to the main shaft in a rotating manner, the main shaft clamps the material and performs finish processing on the workpiece by the cutter of the cutter tower assembly, the auxiliary shaft returns at the same time, and the auxiliary shaft moves to the position of the material placing assembly to clamp the blank to continue the primary processing, so that one-time shutdown feeding is reduced during auxiliary shaft feeding, the processing beat is effectively shortened, and the processing efficiency is improved.
Optionally, the object placing assembly comprises a mounting seat detachably connected to the tool post body, the mounting seat is connected with an object placing sleeve, and the axis of the object placing sleeve is parallel to the axis of the main shaft or the axis of the auxiliary shaft.
Through adopting above-mentioned technical scheme, when needing to shorten the processing beat, install the mount pad additional, can pull down the mount pad when need not to shorten the processing beat for the lathe uses more nimble changeable, and when getting the material from putting the thing sleeve, countershaft or main shaft axis with put the thing sleeve axis and align the back, the orientation is put the thing sleeve and is fed and can be realized getting the material.
Optionally, the mount pad is connected with the buffering subassembly, the buffering subassembly includes fixed connection in the slide bar of mount pad, the joint that slides of slide bar tip is in putting the thing sleeve, the slide bar cover is equipped with buffer spring, buffer spring one end butt in the mount pad, other end butt in putting the thing sleeve.
Through adopting above-mentioned technical scheme, it can slide for the slide bar to put the thing sleeve, and can play the cushioning effect to the plant sleeve through buffer spring, and then when main shaft or countershaft orientation put the thing sleeve and feed when getting the material, accessible buffering subassembly realizes the buffering shock attenuation.
Optionally, put the thing sleeve and offer the groove that slides that supplies the slide bar to slide the card to go into, the groove that slides extends to the center towards the opening part of mount pad has first fender edge, the slide bar stretches into the one end in the groove that slides and outwards extends to have the second to keep off the edge, the second keeps off along the inner wall butt that can keep off the edge with first.
Through adopting above-mentioned technical scheme, buffer spring exerts the thrust that moves towards deviating from the slide bar direction to thing sleeve, keeps off the butt that follows through first fender and second and can prevent to put thing sleeve and slide bar emergence and break away from.
Optionally, the detection mechanism comprises an overlapping part rotatably connected to the side wall of the tool post body, one end of the overlapping part is rotatably connected to the side wall of the tool post body, the other end of the overlapping part is suspended and is used for overlapping a workpiece at the front end of the main shaft, the detection mechanism further comprises a driving assembly rotatably connected to the side wall of the tool post body, one end of the driving assembly is rotatably connected to the tool post body, and the other end of the driving assembly is connected to the overlapping part and is used for driving the overlapping part to rotate.
By adopting the technical scheme, the workpiece clamped by the main shaft extends to the front end of the main shaft, the drive assembly drives the lapping part to rotate, the free end of the lapping part rotates towards the workpiece clamped by the main shaft, when the main shaft clamps the workpiece, the end part of the lapping part is abutted to the workpiece to indicate that the main shaft clamps the workpiece, when the main shaft does not clamp the workpiece, the lapping part rotates to the front end position of the main shaft and then continues to rotate, and the movement stroke of the drive assembly is changed to indicate that the main shaft does not clamp the workpiece.
Optionally, the overlap joint spare is including rotating the dwang of connecting in the tool post body, the tip fixedly connected with overlap joint pole that the dwang deviates from the tool post body, the axis perpendicular to main shaft axis of overlap joint pole, drive assembly's drive end is connected in the dwang and is used for the drive dwang to rotate, just overlap joint pole length is not less than the distance of dwang to main shaft axis.
Through adopting above-mentioned technical scheme, the dwang is realized being connected with the rotation of sword platform body to drive the dwang through drive assembly and realize rotating, and then drive the overlap joint pole along the swing of longitudinal plane, and the overlap joint pole can with the work piece overlap joint of centre gripping on the main shaft when rotating, and then when the overlap joint pole is blocked by the work piece, show that there is the centre gripping work piece on the main shaft, if the overlap joint pole turned angle has surpassed the work piece position, then show not centre gripping work piece on the main shaft.
Optionally, the driving assembly is connected to the cylinder of support including being fixed in support, the rotation of sword platform body lateral wall, the piston rod of cylinder rotates and is connected with the linkage, linkage one end rotates the piston rod of connecting in the cylinder, other end fixed connection in dwang.
Through adopting above-mentioned technical scheme, when the cylinder piston rod is elongated, the one end that drives the linkage piece and deviates from the dwang rotates towards main shaft work piece direction, because linkage piece and dwang fixed connection, and overlap joint pole and dwang fixed connection to make the overlap joint pole orientation keep away from the direction rotation of main shaft work piece, when the cylinder piston rod contracts, drive the one end orientation that the linkage piece deviates from the dwang and keep away from the direction rotation of main shaft work piece, the overlap joint pole orientation rotates near the direction of main shaft work piece simultaneously.
Optionally, a mounting groove is formed in a side wall of the cylinder body of the cylinder, a magnetic switch used for detecting a stroke of a piston of the cylinder is fixed in the mounting groove, and the piston of the cylinder has magnetism.
Through adopting above-mentioned technical scheme, the accessible magnetic switch detects the removal of piston, judges the stroke of cylinder pull-back in-process piston, and then judges whether the overlap joint pole is blockked by the work piece.
Optionally, the feeding assembly is connected to the first sliding table of the lathe bed in a sliding mode, the first sliding table slides along the direction perpendicular to the cutter table body, the upper surface of the first sliding table is connected with an auxiliary shaft seat in a sliding mode, the auxiliary shaft seat slides along the direction parallel to the cutter table body, and the auxiliary shaft is installed in the auxiliary shaft seat.
Through adopting above-mentioned technical scheme, the countershaft is used for the centre gripping work piece, and first slip table slides along the direction of perpendicular to sword platform body to drive the work piece and slide along the direction of perpendicular to sword platform body, can drive the work piece simultaneously and slide along the direction that is on a parallel with sword platform body, and then realize the multidimension degree motion of work piece, with the processing of adaptation work piece.
Optionally, the tool turret assembly comprises a mounting frame fixed on the lathe bed, a tool tray rotatably connected to the mounting frame, and a tool arranged on the circumferential side wall of the tool tray and used for machining the spindle workpiece, and the tool tray is driven by a servo motor to rotate.
By adopting the technical scheme, the cutter trays are driven to rotate by the servo motor, so that different cutters are driven to rotate, and the workpieces clamped by the main shaft can be machined by selecting the corresponding type of cutters.
Drawings
Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.
Fig. 2 is a schematic structural view of a turret assembly of the present application.
Fig. 3 is a schematic structural diagram of a feeding assembly according to an embodiment of the present application.
Fig. 4 is a schematic structural diagram of a cutter assembly according to an embodiment of the present application.
Fig. 5 is a schematic structural diagram of a placement module according to an embodiment of the present application.
Fig. 6 is a schematic cross-sectional view of a storage assembly according to an embodiment of the present application.
Fig. 7 is a schematic view of the entire structure of the detection mechanism according to the embodiment of the present application.
Fig. 8 is a schematic structural view of the detection mechanism according to the embodiment of the present application, in which the rotating lever and the tool post body are exploded.
Description of reference numerals: 1. a bed body; 2. a main shaft; 3. a feeding assembly; 4. a counter shaft; 5. a lifting assembly; 6. a tool post body; 7. a cutter assembly; 8. a turret assembly; 9. an article placing component; 10. a detection mechanism; 11. a mounting frame; 12. a knife tray; 13. a cutter; 14. a first sliding table; 15. a first slide rail; 16. a first motor; 17. a first lead screw; 18. a second motor; 19. a second lead screw; 20. a second sliding table; 21. a second slide rail; 22. an auxiliary shaft seat; 23. a frame; 24. a lifting motor; 25. a lifting screw rod; 26. a guide post; 27. a first tool apron; 29. mounting holes; 30. a transverse power head; 31. a second tool apron; 33. a drill bit; 34. turning the assembly; 35. a transverse groove; 36. turning a tool; 37. a mounting seat; 38. a buffer assembly; 39. a storage sleeve; 40. a slide bar; 41. a sliding groove; 42. a first blocking edge; 43. a second blocking edge; 44. a buffer spring; 45. a first stabilizing slot; 46. a second stabilizing slot; 47. a butting ring; 48. a circular groove; 49. a shock absorbing assembly; 50. a damping spring; 51. a ball bearing; 52. a falling prevention plate; 53. a fixing plate; 54. a fixed part; 55. a circular hole; 56. a lap joint; 57. rotating the rod; 58. a lap joint rod; 59. a buffer rod; 60. an arc-shaped section; 61. a drive assembly; 62. a support; 63. a cylinder; 64. a fork-shaped piece; 65. a connecting rod; 66. a U-shaped frame; 67. a linkage rod; 68. mounting grooves; 69. a magnetic switch.
Detailed Description
The present application is described in further detail below with reference to figures 1-8.
This application is mainly processed to cylindrical work piece, like car steering nut, car steering nut is supporting part among the car steering system, and its whole is formed by two hollow cylindricality muffjoint, and one end is the minor diameter sleeve, and the other end is the major diameter sleeve, and the telescopic wall thickness of major diameter is greater than the telescopic wall thickness of minor diameter.
The embodiment of the application discloses a machine tool capable of saving machining beats. Referring to fig. 1, the machine tool comprises a machine tool body 1, a main shaft 2 is fixedly connected to the machine tool body 1 through a bolt, a feeding assembly 3 is arranged on the upper surface of the machine tool body 1, an auxiliary shaft 4 is connected to the feeding assembly 3, so that the auxiliary shaft 4 is driven to move through the feeding assembly 3, a lifting assembly 5 is arranged on the machine tool body 1 and opposite to the auxiliary shaft 4, the lifting assembly 5 is connected with a tool post body 6, a tool assembly 7 is arranged on one side, facing the auxiliary shaft 4, of the tool post body 6, the tool assembly 7 is used for processing a workpiece on the auxiliary shaft 4, the tool post body 6 is arranged on one side of the main shaft 2, a tool turret assembly 8 is fixedly connected to one side, facing away from the tool post body 6, of the machine tool body 1 and located on the main shaft 2, the tool turret assembly 8 is used for processing the workpiece on the main shaft 2, an object placing assembly 9 is further arranged on the side wall, facing the auxiliary shaft 4, and a blank can be placed in advance on the tool post body 9, realize the storage, be provided with in the position that the tool post body 6 is close to main shaft 2 and examine out mechanism 10, examine out mechanism 10 and be used for detecting whether main shaft 2 has the clamp material to in time to controller feedback signal.
Referring to fig. 2, turret subassembly 8 is including connecting in the mounting bracket 11 of lathe bed 1, and the mounting bracket 11 accessible lead screw motor structure slides with lathe bed 1 and is connected, mounting bracket 11 is located the one side that main shaft 2 deviates from tool post body 6 and can be followed the orientation or move apart from the direction of main shaft 2, it is connected with cutter tray 12 to rotate through the pivot on mounting bracket 11, can set up servo motor in mounting bracket 11 inside and be used for driving the pivot and rotate, cutter tray 12 shape is for using the pivot as the polygon of centre of a circle, the cutter 13 of a plurality of different grade types is installed to the lateral wall at cutter tray 12, it rotates to the position that corresponds with main shaft 2 to drive cutter tray 12 through servo motor, and then rotate corresponding cutter 13, and process the work piece on main shaft 2.
Referring to fig. 1 and 3, the feeding assembly 3 includes a first sliding table 14 slidably connected to the bed 1, a first sliding rail 15 is disposed on the upper surface of the bed 1, the lower surface of the first sliding table 14 is slidably connected to the first sliding rail 15 by forming a sliding groove, the first sliding rail 15 at this position can adopt a dovetail block in a long strip shape, the sliding groove formed on the lower surface of the first sliding table 14 is a dovetail groove, thereby ensuring the stability of the sliding of the first sliding table 14, in order to drive the sliding of the first sliding table 14, a first motor 16 is fixed on the bed 1, a body of the first motor 16 is fixed to the bed 1 by bolts, an output shaft of the first motor 16 is connected with a first lead screw 17, and the first lead screw 17 is threaded through the first sliding table 14 and used for driving the first sliding table 14 to slide.
As shown in fig. 3, the first sliding table 14 is plate-shaped, a second motor 18 is fixed on the upper surface of the first sliding table 14 through bolts, an output shaft of the second motor 18 is connected with a second lead screw 19 through a coupling, the second lead screw 19 is in threaded connection with a second sliding table 20, the second sliding table 20 is connected on the upper surface of the first sliding table 14 in a sliding manner, a second sliding rail 21 is horizontally arranged on the upper surface of the first sliding table 14 in a direction perpendicular to the first sliding rail 15, a dovetail block can be selected for the second sliding rail 21, and a dovetail groove is formed in the lower surface of the second sliding table 20 so as to realize the sliding of the second sliding table 20.
An auxiliary shaft seat 22 is fixedly connected to the upper surface of the second sliding table 20, the auxiliary shaft 4 is mounted on the auxiliary shaft seat 22 and clamps a workpiece through a three-jaw chuck at the end of the auxiliary shaft 4, and the axis of the auxiliary shaft 4 is parallel to the direction of the second sliding table 20.
Referring to fig. 1 and 4, the lifting assembly 5 includes a frame 23 fixedly connected to the bed 1, a lifting motor 24 is fixed to the upper end of the frame 23 through a bolt, an output shaft of the lifting motor 24 is arranged downward, a lifting screw 25 is connected to the output shaft of the lifting motor 24 through a coupling, and the tool post body 6 is in threaded connection with the lifting screw 25 and driven to lift by the lifting screw 25.
As shown in fig. 4, a guide post 26 is further welded on the lathe bed 1, and the guide post 26 is parallel to the lifting screw 25, the guide post 26 slides to penetrate through the tool post body 6, the tool post body 6 is square, the tool assembly 7 includes a first tool rest 27 fixed on the side wall of the tool post body 6 facing the auxiliary shaft 4 through a bolt, a mounting hole 29 is transversely formed in the first tool rest 27, the axis of the mounting hole 29 is perpendicular to the axis of the auxiliary shaft 4, a plurality of the mounting holes 29 are longitudinally formed, four power heads are arranged in the embodiment, a transverse power head 30 is inserted into the mounting hole 29, and the transverse power head 30 at the position can select power heads with different functional models, so that the function diversification of processing is realized.
As shown in fig. 4, a second tool rest 31 is further fixed to a side wall of the tool rest body 6 facing the auxiliary shaft 4 by bolts, and a plurality of drills 33 are provided on the second tool rest 31, and the axes of the drills 33 are parallel to the axis of the auxiliary shaft 4. A turning assembly 34 is further mounted on the side wall of the second tool apron 31, the turning assembly 34 includes a transverse groove 35 formed in a direction parallel to the axis of the auxiliary shaft 4, a turning tool 36 is slidably arranged in the transverse groove 35, and the edge of the turning tool 36 extends out of the edge of the second tool apron 31.
Referring to fig. 5 and 6, the object placing assembly 9 includes a mounting seat 37 fixed on the side wall of the tool post body 6 by bolts, thereby realizing detachable connection of the mounting seat 37, a buffer assembly 38 is welded on the side wall of the mounting seat 37 facing the auxiliary shaft 4, the buffer assembly 38 is slidably sleeved with an object placing sleeve 39, the object placing sleeve 39 is arranged in a hollow cylindrical manner, the buffer assembly 38 includes a sliding rod 40 with one end welded on the side wall of the mounting seat 37, the axis of the sliding rod 40 is parallel to the axis of the auxiliary shaft 4, a sliding groove 41 is arranged in the object placing sleeve 39 along the axis thereof, the end of the sliding rod 40 slidably penetrates the sliding groove 41, a first blocking edge 42 integrally extends towards the opening edge of the mounting seat 37 in the direction of the circle center, the first blocking edge 42 is in a circular ring shape, a second blocking edge 43 integrally extends outwards from the side wall of the end of the sliding rod 40 extending into the sliding groove 41, the second blocking edge 43 is in a circular ring shape, the diameter of the outer wall of the second retaining edge 43 is larger than the diameter of the inner wall of the first retaining edge 42, so that when the object placing sleeve 39 slides towards the direction deviating from the sliding rod 40, the object placing sleeve 39 is prevented from sliding out of the sliding rod 40 by the abutting of the first retaining edge 42 and the second retaining edge 43.
As shown in fig. 6, in order to achieve the buffering effect, the buffering assembly 38 further includes a buffering spring 44 sleeved outside the sliding rod 40, and a first stabilizing groove 45 is formed in the side wall of the mounting seat 37 facing the placement sleeve 39, the first stabilizing groove 45 is annular, a second stabilizing groove 46 is formed in the side wall of the placement sleeve 39 facing the mounting seat 37, the second stabilizing groove 46 is annular and is disposed opposite to the first stabilizing groove 45, one end of the buffering spring 44 extends into the first stabilizing groove 45 and abuts against the bottom wall of the first stabilizing groove 45, and the other end of the buffering spring 44 extends into the second stabilizing groove 46 and abuts against the bottom wall of the second stabilizing groove 46. Therefore, when the placement sleeve 39 slides towards the mounting seat 37, the buffer spring 44 is compressed, so that the buffering effect on the placement sleeve 39 is achieved, and the impact generated when the auxiliary shaft 4 takes materials is reduced.
As shown in fig. 4, in order to ensure that the auxiliary shaft 4 can smoothly take the material, an abutting ring 47 extends outwards from one end of the placement sleeve 39 facing the mounting seat 37, the abutting ring 47 is annular, and the diameter of the abutting ring 47 is larger than that of the smaller diameter end of the blank, so that when the blank is sleeved on the placement sleeve 39, the end surface of the blank abuts against the side wall of the abutting ring 47, and the blank is prevented from sliding relative to the placement sleeve 39 when the auxiliary shaft 4 feeds and clamps the material towards the blank.
As shown in fig. 6, a circular groove 48 is opened on the outer wall of the storage sleeve 39, the circular groove 48 has an opening facing outward and is not communicated with the sliding groove 41, a damping member 49 is embedded in the circular groove 48, one end of the damping member 49 extends out of the side wall of the storage sleeve 39, the damping member 49 comprises a damping spring 50 welded on the bottom surface of the circular groove 48, one end of the damping spring 50 is welded on the bottom surface of the circular groove 48, a ball 51 is welded on the other end, one part of the ball 51 is embedded in the circular groove 48, the other part extends out of the circular groove 48, the height of the ball 51 extending out of the circular groove 48 is larger than the difference between the inner diameter of the blank and the outer diameter of the storage sleeve 39 and smaller than the radius of the ball 51, so that when the blank is sleeved on the storage sleeve 39, the inner wall of the blank presses the ball 51 towards the circular groove 48, and the ball 51 always tends to move towards the inner wall of the blank under the action of the damping spring 50, thereby improving the stability of the blank even when the machine tool is operated to cause the bed 1 to vibrate.
Because the blank has big diameter end and minor diameter end, in order to facilitate the processing of countershaft 4 clamp material, need establish minor diameter end towards mount pad 37 direction cover, in order to prevent workman's mistake in operation, as shown in fig. 5, at mount pad 37 lateral wall fixedly connected with fall prevention board 52, fall prevention board 52 sets up along the direction of perpendicular to mount pad 37 lateral wall, and fall prevention board 52 is located the outside of putting thing sleeve 39, it has the interval to stay between fall prevention board 52 and the thing sleeve 39, this interval thickness is greater than the thickness of the minor diameter one end of blank, and is less than the thickness of the major diameter one end of blank, thereby make the workman only can establish the minor diameter end of blank towards mount pad 37 direction cover when the installation, avoid the problem of the blank dress that leads to when the long-time repetitive operation of workman, guarantee the normal operating of equipment.
As shown in fig. 5, in order to fixedly connect the fall prevention plate 52 and the mounting seat 37, a fixing plate 53 is integrally connected to the fall prevention plate 52, the fixing plate 53 includes a fixing portion 54 parallel to the mounting seat 37, and the fixing portion 54 and the mounting seat 37 are sequentially screwed through bolts, so that the fixing plate 53 is fixed to the mounting seat 37, and further, the fall prevention plate 52 and the mounting seat 37 are fixed.
As shown in fig. 7 and 8, a circular hole 55 has been opened on the side wall of the tool post body 6, the detection mechanism 10 includes a connecting part 56 which is rotatably inserted into the circular hole 55, the connecting part 56 includes a rotating rod 57 which is rotatably inserted into the circular hole 55 at one end, the axis of the rotating rod 57 is parallel to the axis of the main shaft 2, one end of the rotating rod 57 which deviates from the tool post body 6 is integrally connected with a connecting rod 58, the axis of the connecting rod 58 is perpendicular to the axis of the rotating rod 57, one end of the connecting rod 58 which is far away from the rotating rod 57 is integrally connected with a buffer rod 59, the buffer rod 59 includes an arc-shaped segment 60, and the arc-shaped segment 60 protrudes towards the direction of the workpiece clamped by the main shaft 2.
In order to allow the lap lever 58 to lap the workpiece clamped by the spindle 2 when the lap lever is rotated, when the tool post body 6 is lowered to correspond to the spindle 2, the length of the lap lever 58 is set to be greater than or equal to the distance between the rotating lever 57 and the axis of the spindle 2. So that when the rotating lever 57 rotates the lap lever 58, the end of the lap lever 58 can collide with the workpiece, thereby detecting the presence of the workpiece.
As shown in fig. 7 and 8, the detecting mechanism 10 further includes a driving member 61 provided on a side wall of the tool post body 6, and the driving assembly 61 is used for driving the rotating rod 57 to rotate, the driving assembly 61 comprises a support 62 welded on the side wall of the tool post body 6, and the height of the support 62 is lower than that of the rotating rod 57, the support 62 is rotatably connected with an air cylinder 63 through a rotating shaft, the cylinder body of the air cylinder 63 is rotatably connected with the support 62, the piston rod of the air cylinder 63 is connected with a fork-shaped part 64 through a thread, the fork-shaped part 64 comprises a cylindrical connecting rod 65 and a U-shaped frame 66 integrally connected with the connecting rod 65, the end part of the connecting rod 65 is detachably connected with the piston rod of the air cylinder 63 through a thread, the U-shaped frame 66 is penetrated with the rotating shaft, and is connected with the gangbar 67 through the pivot rotation, and the one end and the pivot of gangbar 67 are worn to establish, and the other end welds in dwang 57 lateral wall, and wherein the axis of pivot is parallel with the axis of dwang 57.
Referring to fig. 8, the linkage rod 67 is provided in an L shape, and the linkage rod 67 includes a horizontal portion and a vertical portion, the end of the horizontal portion is fixedly connected to the rotation rod 57, and the end of the vertical portion is rotatably connected to the rotation shaft. And the connection end of the vertical portion to the rotation shaft is lower than the rotation rod 57, thereby preventing interference between the piston rod of the cylinder 63 and the rotation rod 57.
Referring to fig. 8, in order to realize automatic detection, a mounting groove 68 is formed in a side wall of a cylinder body of the cylinder 63, the mounting groove 68 is formed along a length direction of a piston rod, a magnetic switch 69 is arranged in the mounting groove 68, a piston of the cylinder 63 is made of a magnetic material such as a magnet, so that when the cylinder 63 stretches, a moving stroke of the piston is detected through the magnetic switch 69, a signal is transmitted to a controller, a contraction stroke of the cylinder 63 can be automatically judged through the controller, and then whether the lapping rod 58 is lapped with a workpiece in a rotating process is judged, and then whether the spindle 2 clamps the workpiece is judged.
The implementation principle of the machine tool capable of saving the machining beat is as follows: the blank clamped by the auxiliary shaft 4 can be subjected to primary processing by the cutter assembly 7, after the primary processing is finished, the auxiliary shaft 4 is driven by the feeding assembly 3 to move to a station butted with the main shaft 2, whether the main shaft 2 clamps the material or not needs to be detected by the detection mechanism 10 before the primary processing is finished, if the main shaft 2 clamps the material at the moment, an alarm is given, if the main shaft 2 does not clamp the material at the moment, the auxiliary shaft 4 continues to move towards the main shaft 2, then the workpiece of the auxiliary shaft 4 is clamped to the main shaft 2, at the moment, the main shaft 2 clamps the material and carries out finish machining on the workpiece by the cutter 13 of the cutter tower assembly 8, and meanwhile, the auxiliary shaft 4 returns and moves to the position of the material placing assembly to clamp the blank to continue the primary processing.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (10)
1. The utility model provides a save lathe of processing beat, includes lathe bed (1) and sets up in main shaft (2) of lathe bed (1), its characterized in that: the lathe bed (1) is provided with an auxiliary shaft (4), a cutter platform body (6) is arranged at the position, opposite to the auxiliary shaft (4), of the lathe bed (1), a cutter tower assembly (8) is arranged at the position, located on one side of the main shaft (2), of the surface of the lathe bed (1), the lathe bed (1) is further provided with a feeding assembly (3) used for moving the auxiliary shaft (4) to a position where the auxiliary shaft (4) is connected with the main shaft (2), and a cutter assembly (7) and an object placing assembly (9) used for storing a blank in advance are arranged on one side, facing the auxiliary shaft (4), of the cutter platform body (6).
2. A takt time saving machine tool according to claim 1, characterized in that: put thing subassembly (9) including dismantling mount pad (37) of connecting in sword platform body (6), mount pad (37) are connected with puts thing sleeve (39), it is parallel with main shaft (2) or countershaft (4) axis to put thing sleeve (39) axis.
3. A takt-saving machine tool according to claim 2, characterized in that: mount pad (37) are connected with buffering subassembly (38), buffering subassembly (38) include slide bar (40) of fixed connection in mount pad (37), slide bar (40) tip joint that slides is in putting thing sleeve (39), slide bar (40) cover is equipped with buffer spring (44), buffer spring (44) one end butt is in mount pad (37), and the other end butt is in putting thing sleeve (39).
4. A takt-saving machine tool according to claim 3, characterized in that: put thing sleeve (39) and seted up the groove of sliding (41) that supplies slide bar (40) to slide the card to go into, the opening part of groove of sliding (41) orientation mount pad (37) extends to the center has first fender edge (42), slide bar (40) stretch into the outside extension of one end in the groove of sliding (41) have the second to keep off along (43), the second keeps off along (43) can keep off the inner wall butt along (42) with first fender.
5. A takt time saving machine tool according to claim 1, characterized in that: the utility model discloses a sword platform body, including sword platform body (6) and main shaft (2), the position that sword platform body (6) is close to main shaft (2) is provided with and is used for detecting main shaft (2) and press from both sides the detection mechanism (10) of material, detect mechanism (10) including rotating bridging piece (56) of connecting in sword platform body (6) lateral wall, bridging piece (56) one end is rotated and is connected in sword platform body (6) lateral wall, the other end is unsettled and is used for lapping in the work piece of main shaft (2) front end, detect mechanism (10) still including rotating drive assembly (61) of connecting in sword platform body (6) lateral wall, drive assembly (61) one end is rotated and is connected in sword platform body (6), and the other end is connected in bridging piece (56) and is used for driving bridging piece (56) to rotate.
6. A takt time saving machine tool according to claim 5, characterized in that: overlap joint spare (56) are including rotating dwang (57) of connecting in tool post body (6), tip fixedly connected with overlap joint pole (58) that dwang (57) deviates from tool post body (6), the axis perpendicular to main shaft (2) axis of overlap joint pole (58), the drive end of drive assembly (61) is connected in dwang (57) and is used for driving dwang (57) to rotate, just overlap joint pole (58) length is not less than the distance of dwang (57) to main shaft (2) axis.
7. A takt time saving machine tool according to claim 6, characterized in that: drive assembly (61) including being fixed in support (62) of cutting off tool rest body (6) lateral wall, rotate cylinder (63) of connecting in support (62), the piston rod of cylinder (63) rotates and is connected with the linkage, linkage one end rotates the piston rod of connecting in cylinder (63), other end fixed connection in dwang (57).
8. A takt time saving machine tool according to claim 7, characterized in that: the cylinder body lateral wall of cylinder (63) has seted up mounting groove (68), mounting groove (68) internal fixation has the magnetism switch that is used for detecting cylinder (63) piston stroke, the piston of cylinder (63) has magnetism.
9. A takt time saving machine tool according to claim 1, characterized in that: feed subassembly (3) including sliding and connect in first slip table (14) of lathe bed (1), first slip table (14) slides along the direction of perpendicular to sword platform body (6), first slip table (14) upper surface slides and is connected with vice axle bed (22), vice axle bed (22) slide along the direction that is on a parallel with sword platform body (6), install in vice axle bed (22) countershaft (4).
10. A takt time saving machine tool according to claim 1, characterized in that: the cutter tower component (8) comprises a mounting frame (11) fixed on the lathe bed (1), a cutter tower disc (12) rotatably connected to the mounting frame (11), and a cutter (13) arranged on the circumferential side wall of the cutter tower disc (12) and used for machining a main shaft (2) workpiece, wherein the cutter tower disc (12) is driven to rotate by a servo motor.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112676592A (en) * | 2020-12-25 | 2021-04-20 | 津上精密机床(浙江)有限公司 | Machine tool capable of saving machining beats |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112676592A (en) * | 2020-12-25 | 2021-04-20 | 津上精密机床(浙江)有限公司 | Machine tool capable of saving machining beats |
CN112676592B (en) * | 2020-12-25 | 2024-07-26 | 津上精密机床(浙江)有限公司 | Machine tool capable of saving machining beats |
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