CN219402470U

CN219402470U - Multi-shaft milling cutter

Info

Publication number: CN219402470U
Application number: CN202320657316.2U
Authority: CN
Inventors: 廖立民; 唐晓东; 谷曼; 于忠亮
Original assignee: Baric Electromechanical Manufacturing Dalian Co ltd
Current assignee: Baric Electromechanical Manufacturing Dalian Co ltd
Priority date: 2023-03-29
Filing date: 2023-03-29
Publication date: 2023-07-25
Anticipated expiration: 2033-03-29

Abstract

The utility model discloses a multi-axis milling cutter, which relates to the technical field of machining and comprises an installation underframe, a workpiece fixing part, a vertical installation frame, a transverse moving part, a vertical moving part, a milling cutter part and an electric control cabinet; according to the utility model, when the workpiece is machined, corresponding machining operations can be carried out at various positions on the top surface of the workpiece according to machining requirements, the workpiece fixing part can drive the workpiece to rotate, the workpiece is subjected to annular machining or machining operations at different points on the same circumference, and the X-axis screw rod, the Y-axis screw rod, the Z-axis screw rod and the rotating motor are cooperatively used, so that the top surface of the workpiece can be subjected to machining operations of various shapes; particularly, when the milling cutter is machined on the annular track, machining operation can be completed only by rotating a workpiece through the rotating motor after one machining point is determined, and when the milling cutter is machined on the unequal-diameter annular track, the machining point is positioned only through the XYZ three axes, and then the machining operation of the milling cutter can be completed through the auxiliary operation of the rotating motor.

Description

Multi-shaft milling cutter

Technical Field

The utility model relates to the technical field of machining, in particular to a multi-axis milling cutter.

Background

The milling cutter is a rotary cutter for milling processing and provided with one or more cutter teeth, and during working, each cutter tooth is used for cutting off the allowance of a workpiece intermittently in sequence, and is mainly used for processing planes, steps, grooves, forming surfaces, cutting off the workpiece and the like on the milling machine.

The utility model provides a triaxial desktop type numerically controlled fraise machine of application number CN2018106514454, it provides a triaxial milling machine, and it can accomplish the processing operation to the work piece through the triaxial interlock in the course of processing, but the processing operation on same ring, needs the triaxial to participate in jointly and remove to accomplish the processing operation, and triaxial collaborative action, and the power consumption is higher, and the accuracy requirement is high to the removal of each part, therefore milling cutter device's cost can be higher.

Disclosure of Invention

The utility model aims to provide a multi-axis milling cutter, which solves the problems that the existing milling cutter device provided in the background art has higher energy consumption for processing operation on a process ring and has high requirements on the moving precision of each part, so that the cost of the milling cutter device is higher.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the multi-shaft milling cutter comprises a mounting underframe with the bottom horizontally arranged, wherein a workpiece fixing part is arranged in the middle of the mounting underframe, a vertical mounting frame is arranged on the outer side of the mounting underframe, a transverse moving part is arranged at the top of the vertical mounting frame, a vertical moving part is arranged on the transverse moving part, and a milling cutter part is arranged on the vertical moving part; the X-axis sliding blocks are arranged on the X-axis lead screw in a threaded matching manner and fixedly connected to the bottom surface of the workpiece fixing part, X-axis sliding rods arranged on the tops of the frames opposite to the front side and the rear side of the installation underframe and symmetrically arranged on the two sides of the X-axis lead screw through fixing installation seats, and the two X-axis sliding rods penetrate through the X-axis sliding blocks; the vertical mounting frame comprises vertical support plates which are arranged on the outer sides of frames on the left side and the right side of the mounting underframe in a right-opposite mode, and transverse moving parts are arranged on the upper parts of the two vertical support plates together; the transverse moving part comprises Y-axis screw rods which are arranged on the two vertical support plates in a common horizontal mode through bearings, one end of each Y-axis screw rod is connected with a Y-axis motor arranged on the outer side face of each vertical support plate, Y-axis sliding rods with two ends fixedly connected with the two vertical support plates respectively are symmetrically arranged on the upper side and the lower side of each Y-axis screw rod, Y-axis sliding rods matched with threads are arranged on the Y-axis screw rods, and the two Y-axis sliding rods penetrate through the Y-axis sliding blocks; the upper end and the lower end of the Y-axis sliding block are respectively provided with a Z-axis installation plate extending towards the front side, and the two Z-axis installation plates are jointly provided with a vertical moving part; the vertical moving part comprises a Z-axis screw rod which is vertically installed on two Z-axis installation plates through bearings and is connected with a Z-axis motor arranged on the top surface of the upper Z-axis installation plate at the top end of the Z-axis screw rod, Z-axis sliding blocks with matched threads are arranged on the Z-axis screw rod, Z-axis sliding rods are vertically arranged on two sides of the Z-axis screw rod between the two Z-axis installation plates, the two Z-axis sliding rods penetrate through the Z-axis sliding blocks, an L-shaped installation frame is arranged on the front side surface of the Z-axis sliding blocks, the rear side surface of the vertical part of the L-shaped installation frame is fixedly connected with the front side surface of the Z-axis sliding blocks, the horizontal part of the L-shaped installation frame is positioned at the bottom end of the vertical part of the L-shaped installation frame and extends towards the front side, and milling cutter parts are arranged.

Further, the workpiece fixing part comprises a supporting bottom plate fixedly connected with the X-axis sliding block, a thrust bearing is arranged on the top surface of the supporting bottom plate, a workpiece fixing plate is arranged on the top surface of the thrust bearing, a rotating motor vertically installed upwards is arranged on the outer side of the X-axis sliding block, a driving gear is arranged on a shaft rod of the rotating motor, and gear teeth which are downwards protruded and meshed with the driving gear are arranged on the bottom surface of the workpiece fixing plate.

Preferably, a plurality of screw holes are arranged in a matrix on the top surface of the workpiece fixing plate, and the pressing piece can be installed through the screw holes.

Further, the compressing element can set up one or more according to the compress tightly demand of work piece, including the L type that inverts the setting compress tightly the frame, the bottom of compress tightly the frame be provided with screw thread that the screw hole matches, thereby can with the compressing element is fixed on the work piece fixed plate, the horizontal part at the top of compress tightly the frame is close to the end and is provided with the screw hole and installs compression screw, compression screw's bottom clamping is provided with the compact heap, the rigid coupling has rubber cushion on the bottom surface of compact heap, compression screw's top still is provided with rotatory handle.

Preferably, the milling cutter portion includes a milling cutter motor disposed on the L-shaped mounting frame, and a shaft rod of the milling cutter motor penetrates through a horizontal portion of the L-shaped mounting frame and is connected with the milling cutter mounting frame at a lower portion, and a milling cutter is mounted at a lower end of the milling cutter mounting frame.

Further, the rear sides of the two vertical support plates are provided with reinforcing plates, and the reinforcing plates are provided with electric control cabinets.

Further, the electric control cabinet comprises a cabinet body, a touch screen is arranged on a cabinet door at the front side of the cabinet body, the touch screen is electrically connected with a single chip microcomputer arranged at the inner side of the cabinet body, and the single chip microcomputer is respectively and independently connected with an X-axis motor, a rotating motor, a Y-axis motor, a Z-axis motor and a milling cutter motor through wires and is respectively and independently controlled.

Preferably, a plurality of keys are arranged below the touch screen on the front cabinet door of the cabinet body.

Preferably, the touch screen can display the processing parameter setting of the workpiece, and the milling cutter processing operation is automatically completed under the control of the singlechip after the setting is completed.

Compared with the prior art, the utility model has the beneficial effects that:

when the multi-shaft milling cutter provided by the utility model is used for milling the workpiece, corresponding milling cutter processing operations can be performed at various positions on the top surface of the workpiece according to processing requirements, the workpiece fixing part can drive the workpiece to rotate so as to perform annular processing or processing operations of different points on the same circumference on the workpiece, and the X-axis screw rod, the Y-axis screw rod, the Z-axis screw rod and the rotating motor are cooperatively used so as to perform processing operations of various shapes on the top surface of the workpiece; particularly, when the milling cutter is machined on the annular track, machining operation can be completed only by rotating a workpiece through the rotating motor after one machining point is determined, and when the milling cutter is machined on the unequal-diameter annular track, the machining point is positioned only through the XYZ three axes, and then the machining operation of the milling cutter can be completed through the auxiliary operation of the rotating motor.

Drawings

FIG. 1 is a schematic diagram of the present utility model;

fig. 2 is a front view;

FIG. 3 is a top view;

FIG. 4 is a right side view;

FIG. 5 is an enlarged view of the hold-down member;

FIG. 6 is a schematic diagram of an electrical cabinet;

FIG. 7 is a schematic diagram of the interior of the cabinet;

in the figure: the device comprises an installation underframe-1, an X-axis screw-11, an X-axis motor-12, an X-axis slide block-13, an X-axis slide rod-14, a workpiece fixing part-2, a supporting base plate-21, a thrust bearing-22, a workpiece fixing plate-23, a threaded hole-24, a pressing piece-25, a pressing frame-251, a pressing screw-252, a pressing block-253, a rubber cushion block-254, a rotary handle-255, a rotary motor-26, a vertical installation frame-3, a vertical support plate-31, a lateral movement part-4, a Y-axis screw-41, a Y-axis motor-42, a Y-axis slide block-43, a Y-axis slide rod-44, a Z-axis installation plate-45, a vertical movement part-5, a Z-axis screw-51, a Z-axis motor-52, a Z-axis slide block-53, a Z-axis slide rod-54, an L-shaped installation frame-55, a milling cutter part-6, a milling cutter motor-61, a mounting frame-62, a milling cutter-63, an electric cabinet-7, a cabinet-71, a touch screen-72, and a singlechip-73.

Detailed Description

In order to make the technical solution of the present utility model better understood by those skilled in the art, the technical solution of the present utility model in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-7, fig. 1 is a schematic diagram of the present utility model; fig. 2 is a front view; FIG. 3 is a top view; FIG. 4 is a right side view; FIG. 5 is an enlarged view of the hold-down member; FIG. 6 is a schematic diagram of an electrical cabinet; fig. 7 is an internal schematic diagram of the electric control cabinet.

The utility model provides a multi-axis milling cutter which is used for processing and using milling cutters in various forms on the upper surface of a workpiece; including the installation chassis 1 that the bottom level set up, be used as the installation base of whole multiaxis milling cutter to use, the centre department of installation chassis 1 is provided with work piece fixed part 2 and is used for placing the work piece of waiting to carry out milling cutter processing, the outside of installation chassis 1 is provided with vertical mounting bracket 3 jointly, the top of vertical mounting bracket 3 is provided with lateral shifting portion 4, be provided with vertical shifting portion 5 in the lateral shifting portion 4, be provided with milling cutter portion 6 in the vertical shifting portion 5 for carry out milling cutter processing to the work piece and use.

The mounting underframe 1 is a rectangular mounting frame, an X-axis screw rod 11 is arranged at the center of the top of the frame opposite to the front side and the rear side of the mounting underframe through bearings, and an X-axis motor 12 is arranged at the rear end of the X-axis screw rod 11 and used for driving the X-axis screw rod 11 to rotate in forward and reverse directions; an X-axis sliding block 13 with matched threads is arranged on the X-axis lead screw 11, and the X-axis sliding block 13 is fixedly connected to the bottom surface of the workpiece fixing part 2, so that the workpiece fixing part 2 can be driven to axially move along the X-axis lead screw 11; the top of the frame opposite to the front side and the rear side of the installation underframe 1 is symmetrically provided with X-axis sliding rods 14 installed through fixed installation seats on the two sides of the X-axis screw rod 11, and the two X-axis sliding rods 14 are all arranged through the X-axis sliding rods 13, so that the X-axis sliding rods 13 can axially slide along the two X-axis sliding rods 14, and the X-axis sliding rods 13 are supported while being guided in an auxiliary manner to slide, so that the X-axis sliding rods 13 cannot overturn in the moving process.

The workpiece fixing part 2 comprises a supporting bottom plate 21 fixedly connected with the X-axis sliding block 13, a thrust bearing 22 is arranged on the top surface of the supporting bottom plate 21, a workpiece fixing plate 23 is arranged on the top surface of the thrust bearing 22, a plurality of screw holes 24 arranged in a matrix are arranged on the top surface of the workpiece fixing plate 23, and a pressing piece 25 can be installed through the screw holes 24 and used for pressing and fixing a workpiece so as to ensure that the workpiece cannot move in the milling cutter processing process; the outside of X axle slider 13 is provided with the rotating electrical machines 26 of vertical upward installation, be provided with driving gear on the axostylus axostyle of rotating electrical machines 26, be provided with on the bottom surface of work piece fixed plate 23 downwards protruding with the gear teeth of driving gear meshing connection, thereby can pass through rotating electrical machines 26 drive work piece fixed plate 23 rotates, thereby can carry out circular arc milling cutter processing to the work piece and use.

The pressing piece 25 can be provided with one or more according to the pressing requirement of the workpiece, the pressing piece comprises an inverted L-shaped pressing frame 251, the bottom end of the pressing frame 251 is provided with threads matched with the threaded holes 24, so that the pressing piece 25 can be fixed on the workpiece fixing plate 23, the horizontal part of the top of the pressing frame 251 is provided with threaded holes close to the tail end and is provided with a pressing screw 252, the bottom end of the pressing screw 252 is provided with a pressing block 253 in a clamping mode, the bottom surface of the pressing block 253 is fixedly connected with a rubber cushion block 254, the pressing block is used for pressing the workpiece, the surface of the workpiece is not damaged when the workpiece is pressed, and the top end of the pressing screw 252 is further provided with a rotary handle 255, so that the pressing block 253 can be moved downwards until the workpiece is pressed and fixed by rotating the rotary handle 255 when the workpiece is fixed.

The vertical mounting frame 3 comprises vertical support plates 31 which are respectively arranged on the outer sides of the frames opposite to the left side and the right side of the mounting underframe 1, the two vertical support plates 31 are opposite to each other, and the upper parts of the two vertical support plates 31 are jointly provided with a transverse moving part 4; the rear sides of the two vertical support plates 31 are provided with reinforcing plates for ensuring structural strength of the two vertical support plates so that shaking does not occur in the milling process.

The transverse moving part 4 comprises Y-axis screw rods 41 which are horizontally arranged on the two vertical support plates 31 together through bearings, one end of each Y-axis screw rod 41 is connected with a Y-axis motor 42 which is arranged on the outer side surface of one vertical support plate 31, and the Y-axis motor 42 can drive the Y-axis screw rods 41 to rotate in the forward and reverse directions; the Y-axis screw rod 41 is provided with a Y-axis slide 43 matched with threads, Y-axis slide bars 44 are symmetrically arranged on the upper side and the lower side of the Y-axis screw rod 41, and two ends of the Y-axis slide bars 44 are fixedly connected with the two vertical support plates 31 respectively; simultaneously, two Y-axis sliding rods 44 are arranged through the Y-axis sliding blocks 43, so that the two Y-axis sliding rods 44 can axially slide; the top and bottom surfaces of the Y-axis slider 43 are provided with Z-axis mounting plates 45 extending forward, and the two Z-axis mounting plates 45 are provided with vertical moving parts 5.

The vertical moving part 5 comprises a Z-axis screw rod 51 which is vertically installed on two Z-axis installation plates 45 through bearings, the top end of the Z-axis screw rod 51 is connected with a Z-axis motor 52 which is arranged on the top surface of the upper Z-axis installation plate 45, and the Z-axis motor 52 can drive the Z-axis screw rod 51 to rotate in the forward and reverse directions; the Z-axis lead screw 51 is provided with a Z-axis sliding block 53 with matched threads, two sides of the Z-axis lead screw 51 are vertically provided with a Z-axis sliding rod 54 between the two Z-axis installation plates 45, and the two Z-axis sliding rods 54 are all arranged through the Z-axis sliding block 53 so as to axially slide along the two Z-axis sliding rods 54; an L-shaped mounting frame 55 is arranged on the front side surface of the Z-axis sliding block 53, the rear side surface of the vertical part of the L-shaped mounting frame 55 is fixedly connected with the front side surface of the Z-axis sliding block 53, the horizontal part of the L-shaped mounting frame 55 is positioned at the bottom end of the vertical part and extends out towards the front side, and a milling cutter part 6 is arranged.

The milling cutter portion 6 includes a milling cutter motor 61 provided on the L-shaped mounting frame 55, and a shaft rod of the milling cutter motor 61 penetrates through a horizontal portion of the L-shaped mounting frame 55 and is connected with a milling cutter mounting frame 62 at a lower portion, and a milling cutter 63 is mounted at a lower end of the milling cutter mounting frame 62, and milling cutter machining operation can be performed on a workpiece through the milling cutter 63.

In addition, the utility model is also provided with an electric control cabinet 7, the electric control cabinet 7 is arranged on the rear side surface of the reinforcing plate at the rear side of the two vertical supporting plates 31, the electric control cabinet 7 comprises a cabinet body 71, a touch screen 72 is arranged on a front cabinet door of the cabinet body 71, the touch screen 72 is electrically connected with a singlechip 73 arranged at the inner side of the cabinet body 71, the singlechip 73 is respectively and independently connected with the X-axis motor 12, the rotating motor 26, the Y-axis motor 42, the Z-axis motor 52 and the milling cutter motor 61 through wires and is respectively and independently controlled, and a plurality of keys are arranged below the touch screen 72 on the front cabinet door of the cabinet body 71 and are used for controlling the milling cutter part 6 to carry out milling cutter processing operations of various specifications on workpieces; the touch screen 72 may display the setting of the processing parameters of the workpiece, and the processing operation of the milling cutter is automatically completed under the control of the singlechip after the setting is completed.

While embodiments of the utility model have been illustrated and described, it will be apparent that the embodiments described are merely some, but not all embodiments of the utility model. Based on the embodiments of the present utility model, it will be understood by those skilled in the art that all other embodiments which may be obtained from numerous changes, modifications, substitutions and alterations of these embodiments without departing from the spirit and principles of the present utility model are within the scope of the present utility model.

Claims

1. A multi-axis milling cutter, characterized in that: the automatic milling machine comprises a mounting underframe (1) with the horizontally arranged bottom, wherein a workpiece fixing part (2) is arranged in the middle of the mounting underframe (1), a vertical mounting frame (3) is arranged on the outer side of the mounting underframe, a transverse moving part (4) is arranged at the top of the vertical mounting frame (3), a vertical moving part (5) is arranged on the transverse moving part (4), and a milling cutter part (6) is arranged on the vertical moving part (5); the X-axis sliding block (13) is arranged on the X-axis lead screw (11) in a threaded matching manner and fixedly connected to the bottom surface of the workpiece fixing part (2), X-axis sliding rods (14) arranged through fixed mounting seats are symmetrically arranged on the tops of the frames opposite to the front side and the rear side of the installation chassis (1) on the two sides of the X-axis lead screw (11), and the two X-axis sliding rods (14) are arranged through the X-axis sliding blocks (13); the vertical mounting frame (3) comprises vertical support plates (31) which are arranged on the outer sides of the frames on the left side and the right side of the mounting underframe (1) in a right-opposite mode, and transverse moving parts (4) are arranged on the upper parts of the two vertical support plates (31) together; the transverse moving part (4) comprises a Y-axis screw rod (41) which is arranged on the two vertical support plates (31) in a common horizontal mode through bearings, one end of the Y-axis screw rod is connected with a Y-axis motor (42) arranged on the outer side face of the vertical support plates (31), Y-axis sliding rods (44) with two ends fixedly connected with the two vertical support plates (31) respectively are symmetrically arranged on the upper side and the lower side of the Y-axis screw rod (41), Y-axis sliding blocks (43) with threads matched are arranged on the Y-axis screw rod (41), and the two Y-axis sliding rods (44) are all arranged through the Y-axis sliding blocks (43); the upper end and the lower end of the Y-axis sliding block (43) are respectively provided with a Z-axis installation plate (45) extending towards the front side, and the two Z-axis installation plates (45) are jointly provided with a vertical moving part (5); the vertical moving part (5) comprises Z-axis screw rods (51) which are arranged on two Z-axis mounting plates (45) in a common vertical mode through bearings, a Z-axis motor (52) arranged on the top surface of the upper Z-axis mounting plate (45) is connected to the top end of the Z-axis screw rods, Z-axis sliding blocks (53) matched with threads are arranged on the Z-axis screw rods (51), Z-axis sliding rods (54) are arranged on two sides of the Z-axis screw rods (51) in a common vertical mode between the two Z-axis mounting plates (45), the two Z-axis sliding rods (54) penetrate through the Z-axis sliding blocks (53) and are arranged, an L-shaped mounting frame (55) is arranged on the front side face of the front side of the vertical part of the Z-axis sliding blocks (53), the horizontal part of the L-shaped mounting frame (55) is located at the bottom end of the vertical part of the L-shaped mounting frame and extends forwards, and milling cutter parts (6) are arranged.

2. The multi-axis milling cutter according to claim 1, wherein: the workpiece fixing part (2) comprises a supporting bottom plate (21) fixedly connected with the X-axis sliding block (13), a thrust bearing (22) is arranged on the top surface of the supporting bottom plate (21), a workpiece fixing plate (23) is arranged on the top surface of the thrust bearing (22), a rotating motor (26) vertically installed upwards is arranged on the outer side of the X-axis sliding block (13), a driving gear is arranged on a shaft rod of the rotating motor (26), and gear teeth which are downwards protruded and meshed with the driving gear are arranged on the bottom surface of the workpiece fixing plate (23).

3. The multi-axis milling cutter according to claim 2, wherein: a plurality of screw holes (24) which are arranged in a matrix form are arranged on the top surface of the workpiece fixing plate (23), and a pressing piece (25) can be installed through the screw holes (24).

4. A multi-axis milling cutter according to claim 3, wherein: the utility model discloses a clamp device for pressing a workpiece, including work piece, hold-down piece (25) can set up one or more according to the compaction demand of work piece, including the L type hold-down frame (251) of inversion setting, the bottom of hold-down frame (251) be provided with screw thread (24) matching, thereby can with hold-down piece (25) are fixed on work piece fixed plate (23), the horizontal part at the top of hold-down frame (251) is close to the end and is provided with screw hole and installs clamp screw (252), the bottom cartridge of clamp screw (252) is provided with clamp block (253), the rigid coupling has rubber cushion (254) on the bottom surface of clamp block (253), the top of clamp screw (252) still is provided with rotatory handle (255).

5. The multi-axis milling cutter according to claim 4, wherein: the milling cutter part (6) comprises a milling cutter motor (61) arranged on the L-shaped mounting frame (55), a shaft rod of the milling cutter motor (61) penetrates through the horizontal part of the L-shaped mounting frame (55) and is connected with a milling cutter mounting frame (62) at the lower part, and a milling cutter (63) is mounted at the lower end of the milling cutter mounting frame (62).

6. The multi-axis milling cutter according to claim 5, wherein: the rear sides of the two vertical support plates (31) are provided with reinforcing plates, and the reinforcing plates are provided with electric control cabinets (7).

7. The multi-axis milling cutter according to claim 6, wherein: the electric control cabinet (7) comprises a cabinet body (71), a touch screen (72) is arranged on a cabinet door at the front side of the cabinet body (71), the touch screen (72) is electrically connected with a single chip microcomputer (73) arranged at the inner side of the cabinet body (71), and the single chip microcomputer (73) is respectively and independently connected with an X-axis motor (12), a rotating motor (26), a Y-axis motor (42), a Z-axis motor (52) and a milling cutter motor (61) through wires and is respectively and independently controlled.

8. The multi-axis milling cutter according to claim 7, wherein: a plurality of keys are arranged below the touch screen (72) on the front cabinet door of the cabinet body (71).

9. The multi-axis milling cutter according to claim 8, wherein: the touch screen (72) can display the processing parameter setting of the workpiece, and the milling cutter processing operation can be automatically completed under the control of the singlechip after the setting is completed.