CN112719390A

CN112719390A - Milling machine

Info

Publication number: CN112719390A
Application number: CN202011523958.0A
Authority: CN
Inventors: 郑应
Original assignee: Yuchen Intelligent Equipment Chongqing Co ltd; Chongqing Yu Chen Machinery Equipment Co ltd
Current assignee: Yuchen Intelligent Equipment Chongqing Co ltd; Chongqing Yu Chen Machinery Equipment Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-04-30

Abstract

The invention relates to the technical field of milling machines, in particular to a milling machine, wherein an output shaft of a spindle motor is fixedly connected with a vertically arranged first milling cutter, a first shell is fixedly sleeved on the periphery of the first milling cutter, the first shell can rotate relative to the spindle motor shell, the lower end face of the first milling cutter is lower than the lower end face of the first shell, a second shell is arranged inside the first shell, the lower end face of the first shell is upwards sunken to form a first groove, a lifting mechanism is arranged in the first groove, the second shell is arranged inside the first shell in a sliding mode through the lifting mechanism, the second shell and the first shell rotate coaxially, the first milling cutter penetrates through the second shell, and a horizontally arranged second milling cutter is arranged at the lower end of the second shell. The invention ensures that the first milling cutter and the second milling cutter can be quickly switched in the operation process.

Description

Milling machine

Technical Field

The invention relates to the technical field of milling machines, in particular to a milling machine.

Background

Milling is a method of cutting a workpiece using a rotating multi-edge tool, and is a highly efficient machining method. During operation, the cutter rotates (performs main motion), the workpiece moves (performs feed motion), and the workpiece can also be fixed, but the rotating cutter also needs to move (performs the main motion and the feed motion simultaneously). The milling machine tool comprises a horizontal milling machine or a vertical milling machine and also comprises a large-scale planer type milling machine. The milling is generally carried out on a milling machine or a boring machine, and is suitable for processing planes, grooves, various forming surfaces, special surfaces of dies and the like.

The existing milling machine can only process one surface of a certain object when the certain object is processed, and if the other surface of the certain object needs to be processed, the certain object needs to be manually turned over, so that the existing milling machine is very inconvenient.

Disclosure of Invention

Aiming at the problems, the invention provides a milling machine to solve the problems.

In order to solve the technical problems, the invention adopts the following technical scheme:

a milling machine comprises a base, wherein support frames are respectively installed on two sides above the base, a top plate is fixedly connected to the upper ends of the support frames, the two support frames are connected through the top plate, a first air cylinder is fixedly connected to the upper surface of the top plate and vertically arranged downwards, a piston rod of the first air cylinder penetrates through the top plate and is connected with a spindle motor shell, a spindle motor is arranged inside the spindle motor shell, an output shaft of the spindle motor is fixedly connected with a first milling cutter which is vertically arranged, a first shell is fixedly sleeved on the periphery of the first milling cutter and can rotate relative to the spindle motor shell, the lower end face of the first milling cutter is lower than the lower end face of the first shell, a second shell is arranged inside the first shell, a first groove is formed in the lower end face of the first shell in an upwards concave mode, and a lifting mechanism is arranged in the first groove, the second shell is arranged inside the first shell in a sliding mode through the lifting mechanism, the second shell and the first shell rotate coaxially, the first milling cutter penetrates through the second shell, a horizontally arranged second milling cutter is installed at the lower end of the second shell, supporting blocks are installed at the front end and the rear end of the middle position of the upper end of the base respectively, a ball screw is arranged between the two supporting blocks and is rotatably connected with the supporting blocks through bearings, a ball sliding block is installed above the ball screw, an installation seat is installed above the ball sliding block, a clamping mechanism used for clamping a workpiece is arranged on the installation seat, first sliding blocks are installed on two sides below the installation seat respectively, sliding plates are installed on the base and are located on two sides of the supporting blocks, and first sliding rails are installed at the upper ends of the two sliding plates respectively, the first sliding block is connected to the first sliding rail in a sliding mode, a first motor is arranged on one side of one of the supporting blocks, and an output shaft of the first motor is fixedly connected with the ball screw.

Among this technical scheme, during the use, press from both sides tightly the work piece through clamping mechanism, start first motor, drive first slider and move on ball, thereby drive the mount pad and begin to move to one side, then start first cylinder and drive spindle motor downstream, if need mill the surface of work piece flat, then can descend the second shell, the second milling cutter through the level setting processes, if need carry out slot processing to the work piece, then can rise the second shell, process through the first milling cutter of vertical setting.

Preferably, the clamping mechanism comprises two second cylinders and two second slide rails, the two second cylinders are horizontally fixed on the mounting seat, piston rods of the two second cylinders are arranged oppositely, second slide blocks are arranged on the two second slide rails in a sliding mode respectively, the second slide blocks are fixedly connected with the corresponding piston rods of the second cylinders, one ends, far away from cylinder barrels of the second cylinders, of the piston rods of the second cylinders are fixedly connected with connecting blocks, horizontally arranged second motors are fixedly connected to the piston rods of the second cylinders, and output shafts of the second motors penetrate through clamping plates fixedly connected with the connecting blocks.

Like this, through setting up two second cylinders, when pressing from both sides tight work piece, can remove the work piece about, be convenient for mill the lower surface of work piece if needs mill the work piece, can be rotatory about with the work piece through the second motor, make processing more nimble like this.

As an optimization, the lifting mechanism comprises a powered magnet fixed at the top of the first groove, the lower end of the powered magnet is fixedly connected with a vertically arranged first spring, the lower end of the first spring is fixedly connected with a permanent magnet, the lower end of the permanent magnet is fixedly connected with a first connecting rod, the lower end of the first connecting rod is fixedly connected with a second connecting rod, the lower end of the second connecting rod is fixedly connected with a horizontally arranged third connecting rod, and the third connecting rod is fixedly connected with the second casing.

Like this, through the lift of circular telegram magnet and permanent magnet control second shell, it is quick accurate more, guarantee at operation in-process first milling cutter and second milling cutter can fast switch over.

As optimization, a second groove is formed in the side wall of the first connecting rod, a second spring which is horizontally arranged is fixedly connected to the inner side wall of the second groove, a fixed block is fixedly connected to the outer side of the second spring, and one side, away from the second spring, of the fixed block is located on the outer side of the second groove in an uncompressed state of the second spring; under the state that the second spring is compressed, one side, far away from the second spring, of the fixing block is located on the inner side of the second groove, and fixing grooves matched with the fixing block are formed in the upper portion and the lower portion of the side wall of the first groove respectively.

Like this, when the second shell descends or rises, compress the spring through the fixed block, make the fixed block be in the second recess, reach the position of fixed slot when the fixed block, the spring returns normal condition, and the fixed block card is in the fixed slot to make the head rod fix in first recess, just also make second shell and first shell relatively fixed.

Preferably, the fixing block is a hemisphere, and the fixing groove is matched with the fixing block in shape.

Like this, when the second shell that needs to go up and down, be convenient for make the fixed block break away from with the fixed slot.

Preferably, at least two fixing blocks are arranged.

Thus, the fixation can be more stable.

As optimization, the number of the fixing grooves is twice that of the fixing blocks, and the positions of the fixing grooves correspond to the fixing blocks.

Like this, when the second shell of being convenient for rises and descends, all have the fixed slot to place the fixed block.

Preferably, the second milling cutter is composed of a horizontal part and an inclined part, and after the second housing is raised, the height of the horizontal part is located between the bottom of the second housing and the bottom end of the first milling cutter.

Like this, the second milling cutter sets up the rake, can prevent that when the second milling cutter operation, the work piece and second shell contact, lead to the wearing and tearing of second shell, and the back is risen to the second shell, and the height of horizontal part is located between the bottom of second shell and the first milling cutter bottom, can be so that when the operation of first milling cutter, the second milling cutter can not contact the work piece.

Compared with the prior art, the milling machine adopting the technical scheme has the following technical effects:

1. if the surface of the workpiece needs to be milled flat, the second shell can be lowered and processed by the second milling cutter which is horizontally arranged, and if the workpiece needs to be processed by the groove, the second shell can be raised and processed by the first milling cutter which is vertically arranged;

2. the two second cylinders are arranged, so that the workpiece can be moved left and right while being clamped, the workpiece can be milled conveniently, and if the lower surface of the workpiece needs to be milled, the workpiece can be rotated up and down through the second motor, so that the machining is more flexible;

3. through the lift of circular telegram magnet and permanent magnet control second shell, it is quick accurate more, guarantee that first milling cutter and second milling cutter can fast switch over in the operation process.

Drawings

Fig. 1 is a schematic structural view of a milling machine according to the invention (second housing in lowered state);

FIG. 2 is a schematic top view of the base of FIG. 1;

FIG. 3 is an enlarged schematic view of A of FIG. 1;

FIG. 4 is a schematic view of the first housing (without the lift mechanism) of FIG. 3;

FIG. 5 is a schematic view of the second housing after it has been raised;

fig. 6 is an external view of the second housing after it is lowered.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

as shown in fig. 1-6, a milling machine includes a base 1, wherein support frames 2 are respectively installed on two sides above the base 1, a top plate 2a is fixedly connected to the upper end of each support frame 2, two support frames 2 are connected by the top plate 2a, a first cylinder 3 vertically arranged downwards is fixedly connected to the upper surface of the top plate 2a, a piston rod of the first cylinder 3 penetrates through the top plate 2a and is connected to a spindle motor housing 4, a spindle motor is arranged inside the spindle motor housing 4, an output shaft of the spindle motor is fixedly connected to a first milling cutter 20 vertically arranged, a first housing 19 is fixedly sleeved on the periphery of the first milling cutter 20, the first housing 19 can rotate relative to the spindle motor housing 4, the lower end surface of the first milling cutter 20 is lower than the lower end surface of the first housing 19, a second housing 21 is arranged inside the first housing 19, a first groove 19a is concavely formed in the lower end surface of the first shell 19 in an upward direction, a lifting mechanism is arranged in the first groove 19a, the second shell 21 is arranged in the first shell 19 in a sliding manner through the lifting mechanism, the second shell 21 and the first shell 19 rotate coaxially, the first milling cutter 20 penetrates through the second shell 21, a second milling cutter 28 which is horizontally arranged is arranged at the lower end of the second shell 21, supporting blocks 9 are respectively arranged at the front end and the rear end of the middle position of the upper end of the base 1, a ball screw 18 is arranged between the two supporting blocks 9, the ball screw 18 is rotatably connected with the supporting blocks 9 through bearings, a ball slide block 10 is arranged above the ball screw 18, a mounting seat 8 is arranged above the ball slide block 10, and a clamping mechanism for clamping a workpiece is arranged on the mounting seat 8, first sliders 7 are installed on two sides of the lower portion of the installation seat 8, sliding plates 5 are installed on the base 1 and located on two sides of the supporting blocks 9, first sliding rails 6 are installed at the upper ends of the two sliding plates 5, the first sliders 7 are connected to the first sliding rails 6 in a sliding mode, a first motor 17 is arranged on one side of one supporting block 9, and an output shaft of the first motor 17 is fixedly connected with the ball screw 18.

In this embodiment, the clamping mechanism includes two second cylinders 11 and two second slide rails 12 that are horizontally fixed on the mounting base 8, two piston rods of the second cylinders 11 are arranged oppositely, two second slide rails 12 are provided with second sliders 13 respectively in a sliding manner, the second sliders 13 are fixedly connected with corresponding piston rods of the second cylinders 11, one ends of the piston rods of the second cylinders 11, which are far away from cylinder barrels of the second cylinders 11, are fixedly connected with connecting blocks 14, piston rods of the second cylinders 14 are fixedly connected with second motors 15 that are horizontally arranged, and output shafts of the second motors 15 penetrate through the connecting blocks 14 and are fixedly connected with clamping plates 16.

In this embodiment, the lifting mechanism includes an electrified magnet 19b fixed on the top of the first groove 19a, a vertically arranged first spring 19d is fixedly connected to the lower end of the electrified magnet 19b, a permanent magnet 19c is fixedly connected to the lower end of the first spring 19d, a first connecting rod 22 is fixedly connected to the lower end of the permanent magnet 19c, a second connecting rod 26 is fixedly connected to the lower end of the first connecting rod 22, a horizontally arranged third connecting rod 27 is fixedly connected to the lower end of the second connecting rod 26, and the third connecting rod 27 is fixedly connected to the second housing 21.

In this embodiment, a second groove 23 is formed in a side wall of the first connecting rod 22, a second spring 24 horizontally arranged is fixedly connected to an inner side wall of the second groove 23, a fixing block 25 is fixedly connected to an outer side of the second spring 24, and in an uncompressed state of the second spring 24, one side of the fixing block 25, which is far away from the second spring 24, is located at an outer side of the second groove 23; under the state that the second spring is compressed 24, one side of the fixed block 25, which is far away from the second spring 24, is located on the inner side of the second groove 23, and fixing grooves 19e matched with the fixed block are respectively arranged on the upper and lower parts of the side wall of the first groove 19 a.

In this embodiment, the fixing block 25 is a hemisphere, and the fixing groove 19e is matched with the fixing block 25 in shape.

In this embodiment, at least two fixing blocks 25 are provided.

Thus, the fixation can be more stable.

In this embodiment, the number of the fixing grooves 19e is twice that of the fixing block 25, and the positions of the fixing grooves 19e correspond to the fixing block 25.

In this embodiment, the second milling cutter 28 is composed of a horizontal portion 28d and an inclined portion 28a, and after the second housing 21 is raised, the height of the horizontal portion 28d is located between the bottom of the second housing 21 and the bottom end of the first milling cutter 20.

The process of the invention is as follows: when the milling machine is used, a workpiece is clamped through the clamping mechanism, the workpiece can be moved leftwards and rightwards while being clamped by the clamping mechanism through the two second air cylinders, the workpiece can be milled conveniently, if the lower surface of the workpiece needs to be milled, the workpiece can be rotated upwards and downwards through the second motor, so that the processing is more convenient, the first motor is started to drive the first sliding block to move on the ball screw, the mounting seat is driven to move towards one side, then the first air cylinder is started to drive the spindle motor to move downwards, if the surface of the workpiece needs to be milled, the second shell can be lowered, the workpiece is processed through the horizontally arranged second milling cutter, if the workpiece needs to be processed through a groove, the second shell can be raised, the workpiece is processed through the vertically arranged first milling cutter, and the lifting mechanism controls the lifting of the second shell through the electrification of the magnet and the permanent magnet, the milling cutter is faster and more accurate, and the first milling cutter and the second milling cutter can be quickly switched in the operation process.

The motor, the first cylinder, the second cylinder and the electrified magnet are all electrically connected with the controller, the controller can adopt a PLC (programmable logic controller) or an ARM (advanced RISC machine) and other controllers on the market, the motor, the first cylinder, the second cylinder and the electrified magnet are all of conventional models on the market and can be selected according to actual conditions, and the controller and the servo motor are electrically connected in the prior art, belonging to common knowledge in the field.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Finally, it should be noted that: various modifications and alterations of this invention may be made by those skilled in the art without departing from the spirit and scope of this invention. Thus, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

Claims

1. The milling machine is characterized by comprising a base (1), wherein support frames (2) are respectively installed on two sides above the base (1), a top plate (2a) is fixedly connected to the upper end of each support frame (2), the two support frames (2) are connected through the top plate (2a), a first air cylinder (3) which is vertically and downwardly arranged is fixedly connected to the upper surface of the top plate (2a), a piston rod of the first air cylinder (3) penetrates through the top plate (2a) to be connected with a spindle motor shell (4), a spindle motor is arranged inside the spindle motor shell (4), a first milling cutter (20) which is vertically arranged is fixedly connected to an output shaft of the spindle motor, a first shell (19) is fixedly sleeved on the periphery of the first milling cutter (20), and the first shell (19) can rotate relative to the spindle motor shell (4), the lower end surface of the first milling cutter (20) is lower than the lower end surface of the first shell (19), a second shell (21) is arranged inside the first shell (19), a first groove (19a) is formed in the lower end surface of the first shell (19) in an upward concave mode, a lifting mechanism is arranged in the first groove (19a), the second shell (21) is arranged inside the first shell (19) in a sliding mode through the lifting mechanism, the second shell (21) and the first shell (19) rotate coaxially, the first milling cutter (20) penetrates through the second shell (21), a second milling cutter (28) which is horizontally arranged is arranged at the lower end of the second shell (21), supporting blocks (9) are respectively arranged at the front end and the rear end of the middle position of the upper end of the base (1), and a ball screw (18) is arranged between the two supporting blocks (9), the ball screw (18) is rotationally connected with the supporting block (9) through a bearing, a ball sliding block (10) is arranged above the ball screw (18), a mounting seat (8) is arranged above the ball sliding block (10), a clamping mechanism for clamping a workpiece is arranged on the mounting seat (8), first sliding blocks (7) are arranged on two sides below the mounting seat (8), sliding plates (5) are arranged on the base (1), the sliding plates are positioned at two sides of the supporting block (9), first sliding rails (6) are arranged at the upper ends of the two sliding plates (5), the first sliding block (7) is connected on the first sliding rail (6) in a sliding way, one side of one of the supporting blocks (9) is provided with a first motor (17), and an output shaft of the first motor (17) is fixedly connected with the ball screw (18).

2. The milling machine according to the claim, characterized in that the clamping mechanism comprises two second cylinders (11) horizontally fixed on the mounting base (8) and two second slide rails (12), piston rods of the two second cylinders (11) are oppositely arranged, the two second slide rails (12) are respectively provided with a second slider (13) in a sliding manner, the second slider (13) is fixedly connected with the corresponding piston rod of the second cylinder (11), one end of the piston rod of the second cylinder (11), which is far away from the cylinder barrel of the second cylinder (11), is fixedly connected with a connecting block (14), the piston rod of the second cylinder (14) is fixedly connected with a horizontally arranged second motor (15), and an output shaft of the second motor (15) penetrates through the connecting block (14) and is fixedly connected with a clamping plate (16).

3. The milling machine according to claim 1, characterized in that the lifting mechanism comprises a current-carrying magnet (19b) fixed at the top of the first recess (19a), a vertically arranged first spring (19d) is fixedly connected to the lower end of the current-carrying magnet (19b), a permanent magnet (19c) is fixedly connected to the lower end of the first spring (19d), a first connecting rod (22) is fixedly connected to the lower end of the permanent magnet (19c), a second connecting rod (26) is fixedly connected to the lower end of the first connecting rod (22), a horizontally arranged third connecting rod (27) is fixedly connected to the lower end of the second connecting rod (26), and the third connecting rod (27) is fixedly connected to the second housing (21).

4. The milling machine according to claim 3, characterized in that a second groove (23) is formed in a side wall of the first connecting rod (22), a horizontally arranged second spring (24) is fixedly connected to an inner side wall of the second groove (23), a fixing block (25) is fixedly connected to an outer side of the second spring (24), and in an uncompressed state of the second spring (24), a side of the fixing block (25) away from the second spring (24) is located at an outer side of the second groove (23); under the state that the second spring is compressed (24), one side, far away from the second spring (24), of the fixing block (25) is located on the inner side of the second groove (23), and fixing grooves (19e) matched with the fixing block are respectively formed in the upper portion and the lower portion of the side wall of the first groove (19 a).

5. The milling machine according to claim 4, characterized in that the fixing block (25) is hemispherical, the fixing groove (19e) matching the shape of the fixing block (25).

6. Milling machine according to claim 4, characterized in that the fixed blocks (25) are provided with at least two.

7. Milling machine according to claim 4, characterized in that the number of fixing grooves (19e) is twice the number of fixing blocks (25) and that the position of the fixing grooves (19e) corresponds to the fixing blocks (25).

8. A milling machine according to claim 1, characterized in that the second milling cutter (28) consists of a horizontal part (28d) and an inclined part (28a), the height of the horizontal part (28d) being located between the bottom of the second housing (21) and the bottom end of the first milling cutter (20) after the second housing (21) has been raised.