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CN112045424A - Turning and rolling composite numerical control machine tool - Google Patents

Turning and rolling composite numerical control machine tool Download PDF

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Publication number
CN112045424A
CN112045424A CN202011002025.7A CN202011002025A CN112045424A CN 112045424 A CN112045424 A CN 112045424A CN 202011002025 A CN202011002025 A CN 202011002025A CN 112045424 A CN112045424 A CN 112045424A
Authority
CN
China
Prior art keywords
workpiece
turret
turning
clamping
machine tool
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN202011002025.7A
Other languages
Chinese (zh)
Inventor
张冬
林守金
赵叶坤
林鑫
方园
黄冠锋
程文发
周永洪
赵汝焕
龚德明
甘艾婷
周昌
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Zhongshan Mltor Cnc Technology Co ltd
Original Assignee
Zhongshan Mltor Cnc Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Zhongshan Mltor Cnc Technology Co ltd filed Critical Zhongshan Mltor Cnc Technology Co ltd
Priority to CN202011002025.7A priority Critical patent/CN112045424A/en
Publication of CN112045424A publication Critical patent/CN112045424A/en
Pending legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23PMETAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P23/00Machines or arrangements of machines for performing specified combinations of different metal-working operations not covered by a single other subclass
    • B23P23/02Machine tools for performing different machining operations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q7/00Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q7/00Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting
    • B23Q7/02Arrangements for handling work specially combined with or arranged in, or specially adapted for use in connection with, machine tools, e.g. for conveying, loading, positioning, discharging, sorting by means of drums or rotating tables or discs

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Optics & Photonics (AREA)
  • Machine Tool Units (AREA)

Abstract

The turning and rolling composite numerical control machine tool comprises a rack, a workpiece clamping mechanism, a cutter tower mechanism and a hobbing cutter mechanism, wherein the workpiece clamping mechanism is arranged on the rack and used for driving a workpiece to rotate, the cutter tower mechanism is used for conveying the workpiece to the workpiece clamping mechanism to be clamped and fixed and processing the workpiece, and the hobbing cutter mechanism is used for hobbing the workpiece on the workpiece clamping mechanism. The invention provides a turning and rolling composite numerical control machine tool, which utilizes a turret mechanism to load and unload a workpiece, after the turret mechanism places the workpiece on a workpiece clamping mechanism, the workpiece clamping mechanism drives the workpiece to rotate, the turret mechanism processes the workpiece, and the hob mechanism can also process the workpiece. Therefore, multiple times of processing can be carried out on the same machine tool, workpieces do not need to be mounted and dismounted for multiple times, and the effects of improving the working efficiency and the processing precision are achieved.

Description

Turning and rolling composite numerical control machine tool
[ technical field ] A method for producing a semiconductor device
The invention relates to the field of machine tools, in particular to a turning and rolling composite numerical control machine tool.
[ background of the invention ]
In machining, a single workpiece often needs to be subjected to multiple kinds of machining, but due to the fact that the machining function of an existing machining tool is single, multiple kinds of machining tools need to be used when the workpiece is machined, the workpiece also needs to be frequently disassembled and installed on each machine tool in the process, machining precision is reduced due to multiple times of clamping, and machining efficiency is low.
[ summary of the invention ]
The invention solves the technical problem that a machine tool cannot carry out various machining when a workpiece is machined, combines various machining procedures such as turning, gear hobbing, milling, drilling and the like into one machine tool, can realize one-time clamping, completes multi-procedure machining, improves the machining precision and reduces the auxiliary time. The invention provides a turning and rolling composite numerical control machine tool with a simple structure and a reasonable design.
The invention is realized by the following technical scheme:
car rolls compound digit control machine tool, including the frame, including locating in the frame and be used for driving work piece pivoted work piece clamping mechanism for transport the work piece extremely carry out the centre gripping on the work piece clamping mechanism and fix and carry out the turret mechanism that processes to the work piece, and be used for right the work piece on the work piece clamping mechanism carries out the hobbing cutter mechanism that gear hobbing was processed.
The turning and rolling composite numerical control machine tool comprises a turret body, wherein the turret body is arranged on the turret body and is used for fixing a cutter disc mechanism of a plurality of cutters, the cutter disc mechanism is arranged on the cutter disc mechanism and is used for taking and placing a workpiece, and the cutter disc mechanism is driven to rotate to enable the cutter disc mechanism to rotate to a feeding and discharging station or to enable the cutters to rotate to a rotating mechanism corresponding to a machining station.
According to the turning and rolling composite numerical control machine tool, the rack is provided with the cutter tower longitudinal moving mechanism for driving the cutter tower mechanism to move up and down along the vertical direction, and the cutter tower transverse moving mechanism for driving the cutter tower body to transversely move the cutter so as to be close to or far away from the machining station.
The turning and rolling composite numerical control machine tool comprises a workpiece clamping mechanism, a workpiece clamping mechanism and a second clamping mechanism, wherein the workpiece clamping mechanism comprises a first clamping piece and a second clamping piece which can be relatively close to or oppositely far away from the first clamping piece and used for clamping or releasing a workpiece positioned on a machining station, the first clamping piece comprises a first chuck and a first power mechanism enabling the first chuck to rotate around the axis of the first chuck, and the second clamping piece comprises a second chuck and a second power mechanism enabling the second chuck to move in the axial direction of the second chuck.
The turning and rolling composite numerical control machine tool comprises a first clamping piece, wherein the first clamping piece comprises a first shell, the first power mechanism comprises a main shaft arranged in the first shell, the main shaft is coaxially provided with a rotor and a stator from inside to outside in the radial direction of the main shaft, the main shaft is axially and respectively provided with a front end bearing assembly and a rear end bearing assembly, the front end bearing assembly and the rear end bearing assembly are positioned on two sides of the rotor and the stator, and one end, close to the front end bearing assembly, of the main shaft is provided with a first chuck.
According to the turning and rolling composite numerical control machine tool, the hobbing cutter mechanism comprises a hobbing cutter fixing device and an angle swinging device, the hobbing cutter fixing device is used for clamping a hobbing cutter and driving the hobbing cutter to rotate, the angle swinging device is used for driving the hobbing cutter fixing device to turn, and the turning plane of the angle swinging device is parallel to the central shaft of the workpiece clamping mechanism driving the workpiece to rotate.
According to the turning and rolling composite numerical control machine tool, a hob longitudinal moving mechanism for driving the hob mechanism to move up and down along the vertical direction and a hob transverse moving mechanism for driving the hob mechanism to transversely move so as to be close to or far away from a machining station are arranged between the hob mechanism and the frame.
The turning and rolling composite numerical control machine tool comprises a turning angle device body and a sliding seat which is arranged on the turning angle device body and turns relative to the turning angle device body, wherein the hob fixing device is arranged on the sliding seat, and a hydraulic locking mechanism which is used for keeping the turning angle device body and the sliding seat in a fixed state or releasing the fixed state is arranged between the turning angle device body and the sliding seat.
The turning and rolling composite numerical control machine tool comprises a hydraulic locking mechanism, wherein the hydraulic locking mechanism is arranged on a swing angle device body to enable a sliding seat to be tightly attached to the swing angle device body so as to lock or enable the sliding seat to be separated from the swing angle device body and form a gap with the swing angle device body so as to unlock, and the locking mechanism comprises a mounting cavity arranged in the swing angle device body and a locking assembly arranged in the mounting cavity and used for moving the mounting cavity to push the sliding seat to enable the sliding seat to be separated from the swing angle device body or tensioning the sliding seat to enable the sliding seat to be tightly attached to the swing angle device body.
The turning and rolling composite numerical control machine tool further comprises a chip removal machine arranged below the workpiece clamping mechanism, and a lathe bed chip removal port arranged on the rack and corresponding to the chip removal machine.
Compared with the prior art, the invention has the following advantages:
the invention provides a turning and rolling composite numerical control machine tool, which utilizes a turret mechanism to load and unload a workpiece, after the turret mechanism places the workpiece on a workpiece clamping mechanism, the workpiece clamping mechanism drives the workpiece to rotate, the turret mechanism processes the workpiece, and the hob mechanism can also process the workpiece. Therefore, multiple times of processing can be carried out on the same machine tool, workpieces do not need to be mounted and dismounted for multiple times, and the effects of improving the working efficiency and the processing precision are achieved. Multiple machining processes such as turning, gear hobbing, milling, drilling and the like are combined to one machine tool, one-time clamping can be realized, multi-process machining is completed, the machining precision is improved, and the auxiliary time is shortened.
[ description of the drawings ]
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an elevation view of the turret mechanism of the present invention;
FIG. 3 is a right side view of the turret mechanism of the present invention;
FIG. 4 is a cross-sectional view A-A of FIG. 2;
FIG. 5 is a cross-sectional view B-B of FIG. 2;
FIG. 6 is a schematic structural view of the work clamping mechanism of the present invention;
FIG. 7 is a half sectional view of a first clamp of the present invention;
FIG. 8 is an enlarged view at A of FIG. 7;
FIG. 9 is a half sectional view of a second clamp of the present invention;
fig. 10 is a half sectional view of the hob mechanism of the present invention.
[ detailed description ] embodiments
In order to make the technical solutions and the advantages of the technical problems solved by the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
When embodiments of the present invention refer to the ordinal numbers "first", "second", etc., it should be understood that the terms are used for distinguishing only when they do express the ordinal order in context.
In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Car rolls compound digit control machine tool, including frame 1, including locating in frame 1 is last and be used for driving work piece pivoted work piece clamping mechanism 2 for transport the work piece extremely carry out the centre gripping on the work piece clamping mechanism 2 and fix and carry out the turret mechanism 3 that processes to the work piece, and be used for right the work piece on the work piece clamping mechanism 2 carries out hobbing cutter mechanism 4 of gear hobbing processing.
Further, as a preferred embodiment of this scheme but not limiting, the turret mechanism 3 includes a turret body 31, a cutter head mechanism 32 that is provided on the turret body 31 and used for fixing a plurality of cutters, a loading and unloading mechanism 33 that is provided on the cutter head mechanism 32 and used for picking and placing a workpiece, and a rotating mechanism 34 that is used for driving the cutter head mechanism 32 to rotate and make the loading and unloading mechanism 33 rotate to the loading and unloading station or make the cutters rotate to correspond to the processing station. The feeding and discharging mechanism arranged on the cutter head mechanism can realize the effect of placing the workpiece on the machining station or taking the workpiece off the machining station by utilizing the rotatable function of the turret mechanism, so that the automatic feeding and discharging operation is realized, the production efficiency is improved, the manual labor can be reduced, the labor cost is saved, and the safety risk of an operator is greatly reduced.
Further, as a preferred embodiment of the present invention, but not limited thereto, a turret longitudinal moving mechanism 39 for driving the turret mechanism 3 to move up and down in the vertical direction and a turret transverse moving mechanism 35 for driving the turret body 31 to move the tool transversely to approach or depart from the machining station are provided on the frame 1. After the loading and unloading mechanism clamps the workpiece 330, the rotating mechanism drives the cutter head mechanism to rotate, so that the workpiece turns to the direction of the machining station, and at the moment, the cutter tower transverse moving mechanism drives the cutter tower body to move towards the direction of the machining station, namely, the workpiece is placed on the machining station. The turning mechanism in this embodiment includes a gearbox motor. The longitudinal movement mechanism of the turret can greatly increase the movement space of the feeding and discharging mechanism so as to facilitate feeding and discharging operations. The automatic feeding and discharging device has the advantages that the workpiece is placed on the machining station or taken down from the machining station, so that automatic feeding and discharging operation is realized, production efficiency can be improved, manual labor can be reduced, labor cost is saved, and safety risks of operators are greatly reduced.
Further, as a preferred embodiment of the present disclosure, but not limited thereto, the present disclosure further includes a longitudinal moving platform 36, and a turret transverse sliding mechanism 37 for transversely moving the turret body 31 relative to the longitudinal moving platform 36 is disposed between the longitudinal moving platform 36 and the turret body 31. The turret transverse sliding mechanism is used for enabling the turret body to transversely slide relative to the longitudinal moving platform so as to move the cutter 320 and the workpiece.
Further, as a preferred embodiment of the present invention but not limited thereto, the turret transverse sliding mechanism 37 includes two turret transverse sliding rails 371 transversely disposed on the longitudinally movable platform 36 and parallel to each other, and a turret transverse sliding block 372 engaged with the turret transverse sliding rails 371, wherein the turret body 31 is disposed on the turret transverse sliding block 372. The double-sliding-rail mode of the two transverse sliding rails of the cutter tower is adopted, so that the transverse moving precision of the cutter tower body can be improved, the pressure applied to the transverse sliding rails of the cutter tower can be reduced, and the influence of the weight of the cutter tower body on the transverse moving smoothness of the cutter tower body is avoided.
Further, as a preferred embodiment of the present invention, but not limited thereto, the turret lateral moving mechanism 35 includes a lateral driving motor 351 disposed on the longitudinal moving platform 36, and a lateral lead screw 352 disposed on an output end of the lateral driving motor 351 and configured to drive the turret body 31 to move along a length direction of the turret lateral slide rail 371. The lead screw structure can improve the precision that the sword tower body moved, improves the removal precision of cutter and work piece promptly.
Further, as a preferred embodiment of the present invention, but not limited thereto, a pad strip 373 for supporting the turret lateral sliding block 372 is disposed on a side of the turret lateral sliding rail 371 away from the other turret lateral sliding rail 371. Because the weight of the turret body is heavier, the turret body can move transversely relative to the longitudinal moving platform by means of the matched support of the turret transverse sliding block and the turret transverse moving slide rail. At this time, the upper turret transverse moving slide rail is subjected to a pulling force which pulls the upper turret transverse moving slide rail away from the longitudinal moving platform, and the lower turret transverse moving slide rail is subjected to a pressure which extrudes the lower turret transverse moving slide rail towards the direction close to the moving platform. Because be gapped between horizontal slider of sword tower and the vertical moving platform, this clearance provides the space of stepping down to the slope of sword tower body. In order to avoid the inclination of the cutter tower body, the position of the cutter is kept accurate, and the processing precision is improved, so that a filler strip for supporting the cutter tower transverse sliding block is arranged on one side of the cutter tower transverse sliding rail, which is far away from the other cutter tower transverse sliding rail. The length direction setting of filler strip along the horizontal slide rail of sword tower to press close to with the horizontal slider of sword tower, when the slight slope takes place for the sword tower body, the horizontal slider of sword tower that is located the below pastes closely on the filler strip that is located the below, prevents further slope. At this moment, can change the filler strip of top, make it keep the horizontal slider laminating of sword tower with the top, prevent that the sword tower body from rocking in vertical direction. Backing strip can be dismantled with vertical moving platform and be connected, can change after the backing strip takes place wearing and tearing, can also use the backing strip that corresponds thickness according to the gradient of sword tower body in addition if in the required precision scope, prevent that the sword tower body from rocking to continue to use the sword tower body, if the gradient of sword tower body has surpassed the required precision scope, then need further maintenance, if change sword tower horizontal slider, sword tower horizontal slide rail etc.. In the in-process of normal use, the sword tower body is difficult to perceive if take place slight slope, has set up behind the filler strip whether the surface of accessible observation filler strip has the mar, judges the sword tower body whether take place the slope phenomenon.
Further, as a preferred embodiment of the present invention, but not limited thereto, the loading and unloading mechanism 33 includes a clamping jaw device 331 for clamping the workpiece, and a telescopic device 332 for driving the clamping jaw device 331 to move away from or close to the cutter mechanism 32. When the feeding and discharging operation is carried out, firstly, the rotating mechanism drives the cutter head mechanism to rotate, so that the clamping jaw device is aligned to the position where a workpiece is placed in advance, then the clamping jaw device loosens the clamping jaw, the telescopic device stretches out, the clamping jaw device moves to the position of the workpiece in the direction of the workpiece, then the clamping jaw device tightens the clamping jaw to clamp the workpiece, and then the telescopic device retracts to enable the clamping jaw device to move in the direction of the cutter head mechanism. The workpiece is removed from the pre-set position. Then the rotating mechanism works to enable the cutter head mechanism to rotate in the direction of the workpiece corresponding to the machining position, then the telescopic device extends out to enable the clamping jaw device to move towards the machining station, and finally the workpiece is placed on the machining station.
Further, as a preferred embodiment of the present invention, but not limited thereto, the cutter head mechanism 32 includes a circular cutter head body 321, and the feeding and discharging mechanism 33 and a plurality of cutter clamping devices 322 for clamping cutters are distributed on the periphery of the cutter head body 321. The feeding and discharging mechanism and the cutter clamping device are arranged on the cutter head body and rotate through the cutter head body so as to achieve the effect of moving the workpiece.
Further, as a preferred embodiment of the present disclosure, but not limited thereto, the tool turret longitudinal moving mechanism 39 includes tool turret longitudinal moving slide rails 391 which are parallel to each other and vertically disposed on the frame 38, a tool turret longitudinal moving platform 392 which is matched with the tool turret longitudinal moving slide rails 391 to slide, a longitudinal driving motor 393 disposed on the frame 38, and a longitudinal screw 394 which is disposed on an output end of the longitudinal driving motor 393 and is used for driving the tool turret body 31 to move along the length direction of the tool turret longitudinal moving slide rails 391. The tool turret longitudinal moving mechanism and the tool turret transverse moving mechanism jointly provide a moving stroke for the workpiece.
Further, as a preferred embodiment of the present invention, but not limited thereto, the workpiece clamping mechanism 2 includes a first clamping member 21 and a second clamping member 22 that can move toward or away from each other to clamp or release the workpiece located at the processing station, the first clamping member 21 includes a first chuck 211 and a first power mechanism 212 that rotates the first chuck 211 about an axis of the first chuck 211, and the second clamping member 22 includes a second chuck 221 and a second power mechanism 222 that moves the second chuck 221 in an axial direction of the second chuck 221. The first chuck 211 and the second chuck 221 are conical, a small processing hole for inserting the first chuck 211 and the second chuck 22 is preset on a workpiece to be processed, the workpiece to be processed is firstly placed on the first chuck 211, namely, a processing station, through a turret mechanism, the second chuck 22 slides along the rack 21 to be close to the first chuck 211 so as to clamp the workpiece to be processed, and in the processing process, the first power mechanism 212 is started to realize the rotation of the workpiece to be processed. In summary, the workpiece clamping mechanism uses the first chuck and the second chuck to clamp the workpiece instead of clamping the workpiece on one side, so as to meet the requirement of complex processing of the workpiece.
Further, as a preferred embodiment of the present invention, but not limited thereto, the first clamping member 21 includes a first housing 213, the first power mechanism 212 includes a main shaft 2121 disposed in the first housing 213, the main shaft 2121 is coaxially provided with a rotor 2122 and a stator 2123 from inside to outside in a radial direction thereof, the main shaft 2121 is provided with a front end bearing assembly 2124 and a rear end bearing assembly 2125 in an axial direction thereof, the front end bearing assembly 2124 and the rear end bearing assembly 2125 are located on two sides of the rotor 2122 and the stator 2123, and one end of the main shaft 2121 close to the front end bearing assembly 2124 is provided with the first clamping head 211. Specifically, the rear end bearing assembly 2125 is a cylindrical roller bearing. The rear bearing assembly 2125 adopts a cylindrical roller bearing, which is beneficial to reducing friction, reducing noise and improving the rigidity of a shaft, thereby improving the service performance of the bearing and the service life of the first power mechanism 212; meanwhile, the high-speed and low-speed rotation of the workpiece to be processed is realized, so that high-speed small torque force and low-speed large torque force can be realized.
In order to solve the problem that the chips easily fall onto the workpiece clamping mechanism, particularly onto the first clamping member 21 located below, and the first clamping member 21 is easily blocked in the past for a long time, which may increase maintenance cost, the first housing 213 is further provided with a gas sealing mechanism 23 for placing the chips into the first clamping member 21.
Specifically, the first housing 213 includes a housing body 2131 and an upper cover 2132 disposed at one end of the housing body 2131 close to the first chuck 211, the gas sealing mechanism 23 includes a gas-tight groove 231 annularly disposed around the circumference of the housing body 2131, the gas-tight groove 231 and the inner wall of the upper cover 2132 enclose to form a gas-tight passage 232, the housing body 2131 is provided with a gas-tight passage 233 communicating with the gas-tight passage 232 and a gas inlet hole communicating with the gas-tight passage 233, a gas pipe joint 234 is disposed in the gas inlet hole, the upper cover 2132 and the housing body 2131 form a gap 235 disposed around the circumference of the upper cover 2132 and communicating with the gas-tight passage 232, and gas flows into the gas-tight passage 233 and the gas-tight passage 232 through the gas pipe joint 234 and is discharged from the gap 235. In this structure, the airtight channel 232 formed by the airtight groove 231 and the inner wall of the upper cover 2132 is inflated, so that the air pressure inside the airtight channel is increased and then the air is discharged from the gap 235 to form air thrust, and the chips dropped during the machining process are blown away from the first clamping piece 21, thereby avoiding the blockage of the first clamping piece 21. The airtight channel 232 ingeniously utilizes the original components of the first clamping piece 21, the effect can be achieved without newly added components, and the structure is simple and compact.
Further, the second clamping member 22 includes a second housing 223, the second power mechanism 222 includes a sleeve 2221 disposed in the second housing 223 and a sliding rod 2222 disposed in the sleeve 2221 and capable of moving in a clamping direction, and one end of the sliding rod 2222 close to the first clamping member 21 is provided with the second clamp 221. Specifically, one end of the sliding rod 2222, which is away from the second chuck 221, penetrates through the sleeve 2221 and can be clamped on the sleeve 2221, one end of the sliding rod 2222, which is away from the second chuck 221, can be movably attached to or detached from the sleeve 2221 under the action of an external force, and the sliding rod 2222 is sleeved with an elastic member 2223, which elastically presses the sliding rod 2222 so that one end of the sliding rod 2222, which is away from the second chuck 221, can be movably attached to the sleeve 2221. When the second clamping member 22 moves close to the first clamping member 21 to clamp a workpiece or to clamp a workpiece and then perform process machining, the sliding rod 2222 can be displaced in a short distance in the axial direction, so that deformation due to rigid contact is prevented.
Further, a through hole 24 is formed in the sleeve 2221, a first nut 25 is connected to the sliding rod 2222 through one end of the through hole 24 in a threaded manner, and the sliding rod 2222 is clamped to the sleeve 2221 through the first nut 25. The slide bar 2222 includes with first nut 25 threaded connection's last slide bar 22221, the one end of going up slide bar 22221 away from first nut 25 is connected with down slide bar 22222, the diameter of going up slide bar 22221 is less than the aperture of sleeve 2221, the diameter of lower slide bar 22222 is greater than the diameter of going up slide bar 22221, the cover is equipped with on going up slide bar 22221 elastic component 2223. With this structure, the pushing force of the elastic element 2223 on the lower sliding bar 22222 can be enhanced, so that the sliding bar 2222 can be quickly restored to fit on the sleeve 2221.
Further, the sleeve 2221 is sleeved with a first bearing group 26, a bearing spacer group 27 and a second bearing group 28 which are distributed along the axial direction, so that the structure can enhance the stability of the structure of the second clamping member 22 and prolong the service life of the second clamping member; one end of the sleeve 2221 close to the second chuck 221 is clamped on the second housing 223, and one end of the sleeve 2221 far from the second chuck 221 is connected with a second nut 29 through a thread.
Further, as a preferred embodiment of the present invention, but not limited thereto, the hob mechanism 4 includes a hob fixing device 41 for clamping the hob and driving the hob to rotate, and an angle swing device 5 for driving the hob fixing device 41 to rotate, wherein a rotation plane of the angle swing device 5 is parallel to a central axis of the workpiece clamping mechanism 2 driving the workpiece to rotate. In order to hobbing a workpiece from multiple angles, the swinging angle device drives the hob fixing device to rotate, so that a steering plane of the swinging angle device is parallel to a central shaft of the workpiece clamping mechanism which drives the workpiece to rotate. In this embodiment, initially, the rotation axis of the hob is located on the horizontal plane, and when the hobbing is required to be performed, the tilt angle device drives the hob to turn, that is, the rotation axis of the hob rotates on the vertical plane.
Further, as a preferred embodiment of the present invention, but not limited thereto, a hob longitudinal moving mechanism 43 for driving the hob mechanism 4 to move up and down in the vertical direction and a hob transverse moving mechanism 44 for driving the hob mechanism 4 to move transversely to approach or depart from the machining station are provided between the hob mechanism 4 and the frame 1. The hob transverse moving mechanism drives the hob to transversely move, and the effect of fleeing the cutter is achieved.
Further, as a preferred embodiment of the present invention, the tilt angle device 5 includes a tilt angle device body 51, and a slide base 52 provided on the tilt angle device body 51 and turned relative to the tilt angle device body 51, the hob fixing device 41 is provided on the slide base 52, and a hydraulic lock mechanism 6 for holding or releasing the fixed state of the tilt angle device body 51 and the slide base 52 is provided between the two. When the hydraulic locking mechanism is locked, the sliding seat and the swing angle device body are kept in a fixed state and cannot rotate relatively. When the hydraulic locking mechanism is loosened, the sliding seat and the swing angle device body are released from the fixed state and can rotate relatively.
Further, as a preferred embodiment of the present disclosure, but not limited thereto, the hydraulic locking mechanism 6 includes a locking mechanism 53 disposed on the swing angle device body 51, so that the sliding seat 52 is tightly attached to the swing angle device body 51 to lock or the sliding seat 52 is separated from the swing angle device body 51 and forms a gap with the swing angle device body 51 to unlock, and the locking mechanism 53 includes a mounting cavity 531 disposed in the swing angle device body 51 and a locking component 532 disposed in the mounting cavity 531, and moving along the mounting cavity 531 to push the sliding seat 52 to separate the sliding seat 52 from the swing angle device body 51 or pull the sliding seat 52 to tightly attach the sliding seat 52 to the swing angle device body 51.
Specifically, the locking mechanism 53 includes an installation cavity 531 arranged in the tilt angle device body 51 and a locking component 532 arranged in the installation cavity 531 and moving along the installation cavity 531 to push the sliding base 52 so as to separate the sliding base 52 from the tilt angle device body 51 or pull the sliding base 52 so as to make the sliding base 52 and the tilt angle device body 51 tightly attached. By arranging the installation cavity 531 on the swing angle device body 5, when the locking assembly 532 slides along the installation cavity 531 to push the sliding seat 52 under the action of external force so that the sliding seat 52 is separated from the swing angle device body 51 to form a gap, the locking assembly is in an unlocked state; when the external force disappears, the locking assembly 532 resets and tensions the sliding base 52, so that the gap between the sliding base 52 tightly attached to the swing angle device body 551 disappears, and the locking state is achieved. The locking assembly 532 disposed in the installation cavity 531 is moved along the installation cavity 531 by an external force to push and pull the sliding seat so as to lock and unlock the sliding seat 52. The problems of complex structure and difficult maintenance of the existing hydraulic locking mechanism are solved.
Specifically, the locking assembly 532 includes a sliding block 5321 disposed in the installation cavity 531 and moving toward the sliding block 52 to push the sliding block 52 to separate the sliding block 52 from the swing angle device body 51, the sliding block 5321 is connected to the sliding block 52, an elastic member 5322 pressing the sliding block 5321 toward the installation cavity 531 is sleeved on the sliding block 5321 to make the sliding block 52 tightly fit on the swing angle device body 51, and the elastic member 5322 may be a disc spring. The sliding block 5321 moves towards the sliding base 52 under the action of external force, and when the external force is eliminated, the sliding block 5321 moves towards the reverse direction under the action of the elastic piece 5322.
Further, the slider 5321 is including connecting portion 53211 on the slide 52, connecting portion 53211 keeps away from the one end of slide 52 is equipped with sliding part 53212, the outer wall laminating of sliding part 53212 is in on the inner wall of installation cavity 531, be equipped with on the sliding part 53212 with elastic component 5322 shape fit's groove of stepping down 515. As can be seen from the figure, the diameter of the connecting portion 53211 is smaller than that of the sliding portion 53212, and the elastic member 5322 can only be sleeved on the connecting portion 53211 and elastically press the sliding portion 53212, so that the elastic member 5322 is more stably mounted and elastically presses the sliding portion 53212 with a greater force; as can be seen from the figure, the outer wall of the sliding portion 53212 is attached to the inner wall of the mounting cavity 531, which can ensure that the slider 5321 slides along the mounting cavity 531 more stably, and when the external force is an air thrust, the contact surface can be maximized, thereby improving the utilization rate of air and improving the pushing effect. As can be seen from the figure, the sliding portion 53212 is provided with an abdicating groove 515 matched with the elastic member 5322 in shape, which can ensure that the elastic member 5322 is sleeved on the sliding portion 53212 to fix the elastic member 5322, thereby improving the stability.
Furthermore, a first cover plate 54 is arranged at one end of the installation cavity 531, which is far away from the sliding seat 52, an air inlet hole 55 for air to enter the installation cavity 531 is formed in the first cover plate 54, the air inlet hole 55 is connected with an external cylinder and used for inflating the installation cavity 531 so as to provide air thrust, the sliding block 5321 is moved, and compared with other power mechanisms, the structure can be further simplified by using air external force, and the cost is reduced. The second cover plate 56 is arranged at one end, close to the sliding seat 52, of the installation cavity 531, and the second cover plate 56 is an oil cylinder cover plate. The second cover plate 56 is provided with a through hole 57 for the sliding block 5321 to pass through, the sliding block 5321 passes through the through hole 57 to be connected with the sliding seat 52, and further, the outer wall of the connecting part 53211 is attached to the inner wall of the through hole 5 and the hole 7. The structure can further improve the air tightness of the installation cavity 531, is favorable for improving the pressure intensity and enables the gas thrust to be stronger
Specifically, the first cover plate 54 and the second cover plate 56 are fixedly connected to the tilt angle device body 551 by screws.
Furthermore, the sliding base 52 is provided with a T-shaped groove 58 annularly arranged along the circumferential direction of the sliding base 52, a T-shaped nut 59 is arranged in the T-shaped groove 58, and one end of the T-shaped nut 59, which is far away from the sliding base 52, is in threaded connection with the sliding block 5321. The T-shaped nut 59 is clamped in the T-shaped groove 58, and when the sliding seat 52 rotates after being separated from the swing angle device body 551, the T-shaped groove 58 rotates along with the sliding seat 2 relative to the T-shaped nut 59. By adopting the fixing structure, the structure is simple and compact, and the sliding seat 2 can rotate relative to the swing angle device body 51 without being limited by the T-shaped nut 59.
Further, the swing angle device body 51 is provided with a mounting hole 510 parallel to the axis of the mounting cavity 531, a rotating shaft 511 is arranged in the mounting hole 510, the rotating shaft 511 is connected with the sliding seat 52, and one end of the rotating shaft 511, which is far away from the sliding seat 52, is provided with a motor 513 which drives the sliding seat 52 to rotate when the sliding seat 52 is separated from the swing angle device body 51. As can be seen from the figure, when the sliding block 5321 pushes the sliding base 52 under the action of an external force to make the sliding base 52 separate from the swing angle device body 51 and form a gap with the swing angle device body 51, the motor 513 drives the sliding base 52 to rotate, so that the rotation of other mechanisms arranged on the sliding base 52 can be realized, the external force applied on the sliding block 5321 is cancelled, and the sliding block 5321 is tightly attached and locked to the swing angle device body 51 under the pushing of the elastic member 5322.
Further, a plurality of the locking mechanisms 53 are included, and the plurality of the locking mechanisms 53 are distributed along the circumferential direction of the tilt angle device body 551. The plurality of locking mechanisms 53 can further enhance the pushing and pulling force on the sliding seat 52, and improve the use effect.
The processing machine tool comprises a base, wherein the base is provided with the hydraulic locking mechanism, specifically, the swing angle device body 551 is arranged on the base, the sliding seat 52 is provided with a station for clamping a part, and the hydraulic locking mechanism can realize rotation and fixation of the station for clamping the part, so that the processing form is more flexible.
Further, as a preferred embodiment of the present solution, but not limited thereto, the present solution further includes a chip removal machine 7 disposed below the workpiece clamping mechanism 2, and the frame 1 is provided with a lathe bed chip removal port 71 disposed corresponding to the chip removal machine 7. The chip removal machine comprises a chip removal conveyor belt arranged below a chip removal port of the machine body and used for conveying and discharging chips generated during machining and preventing the chips from being accumulated.
The working principle of the embodiment is as follows:
the embodiment provides a car and roll compound digit control machine tool, utilizes turret mechanism to go on unloading to the work piece, and after turret mechanism placed the work piece on work piece clamping mechanism, work piece clamping mechanism drove the work piece and rotates, and turret mechanism processes the work piece, and hobbing cutter mechanism also can process the work piece. Therefore, multiple times of processing can be carried out on the same machine tool, workpieces do not need to be mounted and dismounted for multiple times, and the effects of improving the working efficiency and the processing precision are achieved. Multiple machining processes such as turning, gear hobbing, milling, drilling and the like are combined to one machine tool, one-time clamping can be realized, multi-process machining is completed, the machining precision is improved, and the auxiliary time is shortened.
The foregoing is illustrative of embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms set forth herein. Similar to the structure of the method, or several technical deductions or substitutions made on the premise of the conception of the present application, should be regarded as the protection scope of the present application.

Claims (10)

1. Car rolls compound digit control machine tool, including frame (1), its characterized in that: including locating on frame (1) and be used for driving work piece pivoted work piece clamping mechanism (2), be used for transporting the work piece extremely carry out centre gripping on work piece clamping mechanism (2) and carry out the turret mechanism (3) that the processing was carried out to the work piece, and be used for right work piece on the work piece clamping mechanism (2) carries out hobbing cutter mechanism (4) of gear hobbing processing.
2. The turning and rolling compound numerical control machine tool according to claim 1, characterized in that: turret mechanism (3) include turret body (31), locate on turret body (31) and be used for fixed cutter head mechanism (32) of a plurality of cutters, locate last unloading mechanism (33) that are used for getting on cutter head mechanism (32) and put the work piece, and be used for the drive cutter head mechanism (32) rotate and make last unloading mechanism (33) rotate to go up on the unloading station or make the cutter rotate to slewing mechanism (34) that correspond with the processing station.
3. The turning and rolling compound numerical control machine tool according to claim 2, characterized in that: the machine frame (1) is provided with a tool turret longitudinal moving mechanism (39) for driving the tool turret mechanism (3) to move up and down along the vertical direction, and a tool turret transverse moving mechanism (35) for driving the tool turret body (31) to transversely move a tool to be close to or far away from a machining station.
4. The turning and rolling compound numerical control machine tool according to claim 1, characterized in that: the workpiece clamping mechanism (2) comprises a first clamping piece (21) and a second clamping piece (22) which can be relatively close to or far away from each other so as to clamp or release a workpiece positioned on a machining station, the first clamping piece (21) comprises a first chuck (211) and a first power mechanism (212) enabling the first chuck (211) to rotate around the axis of the first chuck (211), and the second clamping piece (22) comprises a second chuck (221) and a second power mechanism (222) enabling the second chuck (221) to move in the axial direction of the second chuck (221).
5. The turning and rolling compound numerical control machine tool according to claim 4, characterized in that: the first clamping piece (21) comprises a first shell (213), the first power mechanism (212) comprises a main shaft (2121) arranged in the first shell (213), the main shaft (2121) is coaxially provided with a rotor (2122) and a stator (2123) in the radial direction from inside to outside, the main shaft (2121) is axially provided with a front end bearing assembly (2124) and a rear end bearing assembly (2125) respectively, the front end bearing assembly (2124) and the rear end bearing assembly (2125) are located on two sides of the rotor (2122) and the stator (2123), and one end, close to the front end bearing assembly (2124), of the main shaft (2121) is provided with the first clamping head (211).
6. The turning and rolling compound numerical control machine tool according to claim 1, characterized in that: the hob cutter mechanism (4) comprises a hob cutter fixing device (41) used for clamping the hob cutter and driving the hob cutter to rotate, and an angle swing device (5) used for driving the hob cutter fixing device (41) to turn, and a turning plane of the angle swing device (5) is parallel to a central shaft of the workpiece clamping mechanism (2) driving the workpiece to rotate.
7. The turning and rolling compound numerical control machine tool according to claim 6, characterized in that: and a hob longitudinal moving mechanism (43) used for driving the hob mechanism (4) to move up and down along the vertical direction and a hob transverse moving mechanism (44) used for driving the hob mechanism (4) to transversely move so as to be close to or far away from the machining station are arranged between the hob mechanism (4) and the frame (1).
8. The turning and rolling compound numerical control machine tool according to claim 6, characterized in that: the swing angle device (5) comprises a swing angle device body (51) and a sliding seat (52) which is arranged on the swing angle device body (51) and is opposite to the swing angle device body (51) in a rotating direction, the hob fixing device (41) is arranged on the sliding seat (52), and a hydraulic locking mechanism (6) for keeping the swing angle device body (51) and the sliding seat (52) in a fixed state or releasing the fixed state is arranged between the swing angle device body (51) and the sliding seat (52).
9. The turning and rolling compound numerical control machine tool according to claim 8, characterized in that: the hydraulic locking mechanism (6) comprises a locking mechanism (53) which is arranged on the swing angle device body (51) and enables the sliding base (52) to be tightly attached to the swing angle device body (51) so as to lock or enable the sliding base (52) to be separated from the swing angle device body (51) and form a gap with the swing angle device body (51) so as to unlock, wherein the locking mechanism (53) comprises a mounting cavity (531) arranged in the swing angle device body (51) and a locking component (532) which is arranged in the mounting cavity (531) and along the mounting cavity (531) to move and push the sliding base (52) to enable the sliding base (52) to be separated from the swing angle device body (51) or tension the sliding base (52) to enable the sliding base (52) to be tightly attached to the swing angle device body (51).
10. The turning and rolling compound numerical control machine tool according to claim 1, characterized in that: the chip removing machine is characterized by further comprising a chip removing machine (7) arranged below the workpiece clamping mechanism (2), and a chip removing port (71) of the machine body, which corresponds to the chip removing machine (7), is formed in the machine frame (1).
CN202011002025.7A 2020-09-22 2020-09-22 Turning and rolling composite numerical control machine tool Pending CN112045424A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202011002025.7A CN112045424A (en) 2020-09-22 2020-09-22 Turning and rolling composite numerical control machine tool

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202011002025.7A CN112045424A (en) 2020-09-22 2020-09-22 Turning and rolling composite numerical control machine tool

Publications (1)

Publication Number Publication Date
CN112045424A true CN112045424A (en) 2020-12-08

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Application Number Title Priority Date Filing Date
CN202011002025.7A Pending CN112045424A (en) 2020-09-22 2020-09-22 Turning and rolling composite numerical control machine tool

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Country Link
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112045210A (en) * 2020-09-22 2020-12-08 中山迈雷特数控技术有限公司 Tool turret mechanism and turning and rolling combined machining numerical control machine tool
CN113001185A (en) * 2021-03-05 2021-06-22 秦川集团(西安)技术研究院有限公司 High-efficient axle tooth composite processing device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112045210A (en) * 2020-09-22 2020-12-08 中山迈雷特数控技术有限公司 Tool turret mechanism and turning and rolling combined machining numerical control machine tool
CN113001185A (en) * 2021-03-05 2021-06-22 秦川集团(西安)技术研究院有限公司 High-efficient axle tooth composite processing device
CN113001185B (en) * 2021-03-05 2024-04-12 秦川集团(西安)技术研究院有限公司 Shaft tooth composite machining device

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