CN109128309A

CN109128309A - A kind of component device for milling

Info

Publication number: CN109128309A
Application number: CN201811377564.1A
Authority: CN
Inventors: 蔡俊杰
Original assignee: Cixi Kai Cheng Machinery Technology Co Ltd
Current assignee: Cixi Kai Cheng Machinery Technology Co Ltd
Priority date: 2018-11-19
Filing date: 2018-11-19
Publication date: 2019-01-04

Abstract

The invention discloses a kind of component devices for milling, including milling stations and it is set to the milling chamber that the milling stations inner opening extends forward and up and down, milling chamber upper end inner wall is slidably connected with milling cutter device, described milling chamber or so end inner wall is communicated equipped with longitudinal sliding slot that is symmetrical and extending up and down, milling chamber lower end is equipped with control chamber, be rotatably assorted the longitudinal screw bar for being connected with and extending up and down between the longitudinal sliding slot and the control chamber, the longitudinal screw bar threaded upper ends are connected with sliding equipment, clamp bottom board is fixedly connected between the sliding equipment, clamp bottom board upper end end face is fixedly connected with clamp mechanism, longitudinal screw bar lower end is fixedly connected with the first pulley in the control chamber；The configuration of the present invention is simple, it is easy to operate, there is practicability very much.

Description

A kind of component device for milling

Technical field

The present invention relates to milling field, specifically a kind of component device for milling.

Background technique

In the society of nowadays this rapid technological growth, the development speed of machining also it is comparable rapidly, each Milling is most commonly used inside size processing workshop, its feed on blank with high-speed rotating milling cutter cuts out the shape of needs Shape and feature, it can be used to process the different part type such as plane, groove, oblique angle, hole, screw thread and special shaped surfaces, generally Milling attachment structure it is more complicated, the cost is relatively high, and milling efficiency is lower, manipulation get up it is also comparatively laborious, thus be hair A kind of component device of bright milling, will make improvements from technical aspect, reduce the complexity of structure, reduce cost, Its milling efficiency is improved, reduces its operability by the change of method of clamping, it also can be with time control by shirtsleeve operation System, and then the generation of risk in milling process is also reduced, it is time saving and energy saving, want that the practicality will reach higher for.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of component devices for milling, are able to solve above-mentioned existing In the art the problem of.

The present invention is achieved through the following technical solutions: a kind of component device for milling of the invention, including Milling stations and it is set to the milling chamber that the milling stations inner opening extends forward and up and down, the sliding of milling chamber upper end inner wall It is connected with milling cutter device, described milling chamber or so end inner wall is communicated equipped with longitudinal sliding slot that is symmetrical and extending up and down, Milling chamber lower end is equipped with control chamber, is rotatably assorted between the longitudinal sliding slot and the control chamber and is connected with extension up and down Longitudinal screw bar, the longitudinal screw bar threaded upper ends are connected with sliding equipment, are fixedly connected between the sliding equipment Clamp bottom board, clamp bottom board upper end end face are fixedly connected with clamp mechanism, and longitudinal screw bar lower end is fixedly connected with First pulley in the control chamber, longitudinal screw bar lower end end described in left end, which is fixedly connected with, accepts bevel gear, institute It states and has been connected by power the first belt between first pulley, the control cavity rear end inner wall is embedded with motor, and the motor is defeated In the middle part of shaft and end is fixedly connected with driving spur gear and driving bevel gear, and the driving spur gear is ratcheting to be connected with positioned at institute Motor left end is stated to the transmission mechanism that connect with stacking cone gear mesh, the driving bevel gear right end be equipped with to its The control mechanism of ratcheting connection.

As optimal technical scheme, wherein the milling cutter device includes that milling chamber upper end is equipped with the cutter movement that left and right extends Chamber communicates between the cutter mobile cavity and the milling chamber and is equipped with the cutter sliding groove that left and right extends, the cutter mobile cavity Bottom interior wall is embedded with servo motor, and the servo motor output shaft end is fixedly connected with positioned at cutter mobile cavity left end Chain driving wheel, the mobile cavity right end and its bottom interior wall hinge be connected to chain driven wheel, the chain driven wheel and institute It states and has been connected by power chain between chain driving wheel, fixed block, the lower end of fixing block end face are fixedly connected on the chain It is fixedly connected with the sliding bar for being slidably connected with the cutter sliding groove and extending up and down, the sliding bar lower end is fixed to be connected It is connected to milling cutter, is easy to implement moving left and right for milling and its milling.

As optimal technical scheme, wherein the sliding equipment includes that the longitudinal screw bar threaded upper ends are connected with and institute The first sliding shoe of longitudinal sliding slot sliding connection is stated, first sliding shoe is fixedly connected with close to symmetrical end positioned at institute The sliding rail that the intracavitary front and back of milling extends is stated, opening upwards are equipped in the sliding rail and what front and back extended slides laterally slot, the cross It is rotatably assorted to sliding groove rear end inner wall and is connected with the horizontal thread bar that front and back extends, the transverse direction horizontal thread bar nose threads It is connected with and the second sliding shoe for sliding laterally slot sliding connection and being fixedly connected with the clamp bottom board, the cross It is fixedly connected with the second belt wheel positioned at the sliding rail rear end to screw thread rod rear end, has been connected by power between second belt wheel Two belts are easy to implement the upper and lower of milling and are moved forward and backward.

As optimal technical scheme, wherein the clamp mechanism includes that the clamp bottom board top end surface is fixedly connected with milling Cut clamp body, be equipped with the holding chamber of opening upwards in the milling fixture body, described holding chamber or so end be equipped with it is symmetrical and on The rotation chamber of lower extension, the holding chamber lower end are equipped with the sliding cavity that left and right extends, and the sliding cavity right end inner wall is rotatably assorted It is connected with the clamping threaded rod that left and right extends, the clamping threaded rod left end is threaded with bilateral symmetry link block, the folder Tight threaded rod right end is fixedly connected with the clamping knob external positioned at the milling fixture, between the rotation chamber and the sliding cavity It is slidably connected with and is fixedly connected with the link block and controls the first sliding bar extended, the holding chamber and the rotation The second sliding bar that left and right extends is slidably connected between chamber, the second sliding bar hinge is connected to positioned at the holding chamber Interior grip block, being hinged to be connected between first sliding bar and the second sliding bar connecting rod rotates with the rotation cavity wall The rotation connection bar for being cooperatively connected and extending up and down, convenient for the clamping of milled part.

As optimal technical scheme, wherein the transmission mechanism includes that the control chamber bottom interior wall is fixedly connected with up and down The first fixed plate extended, the first rotating bar that first fixed plate extends before and after being slidably connected with, described first turn Lever rear end is fixedly connected with the long spur gear with the driving ratcheting connection of spur gear, and the first rotating bar front end is solid Surely it is connected with the drive bevel gear to connect with the stacking cone gear mesh, convenient for driving sliding equipment movement.

As optimal technical scheme, first rotating bar, which is rotatably assorted, to be connected with positioned at first fixed plate and described Annulus between drive bevel gear, the control sliding groove that control chamber left end inner wall is equipped with opening to the right and front and back extends, institute It states in control sliding groove and is slidably connected with third sliding shoe, be fixedly connected between the third sliding shoe and the annulus First connecting rod, control chamber left end inner wall, which is rotatably assorted, to be connected with positioned at the control sliding groove rear end and controls extension First rotation axis, first rotation axis left end be fixedly connected with outside the milling stations first rotation knob, described first Rotation axis right end end is fixedly connected with the first spur gear, and ratcheting be connected with of first spur gear is consolidated with the first connecting rod The first rack gear that fixed connection and front and back extend, convenient for controlling the connection of transmission mechanism and sliding equipment.

As optimal technical scheme, wherein the control mechanism includes that the control cavity rear end inner wall is rotatably assorted and is connected with The second rotation axis that front and back extends, second rotation shaft rear end end are fixedly connected with third belt wheel, the third belt wheel with Third belt is connected by power between second belt wheel described in right end, the second rotation axis front end is fixedly connected with positioned at institute First stated in control chamber turns to bevel gear, and the control chamber lower end inner wall is fixedly connected with positioned at the first fixed plate right end And the second fixed plate extended up and down, second fixed plate, which is rotatably assorted, is connected with the second rotating bar that left and right extends, described Second rotating bar right end end be fixedly connected with it is described turn to the ratcheting connection of bevel gear second turn to bevel gear, described second Rotating bar left end is equipped with spline, and the spline slide is connected with to the sliding cone with the ratcheting connection of the driving bevel gear Gear, has compressed the first spring between the sliding bevel gear and second fixed plate, second rotating bar is rotated and slided Dynamic be connected with supports the abutment ring closed with the sliding bevel gear, convenient for controlling the movement of fixture.

As optimal technical scheme, the control chamber front inner wall is equipped with the control flume that left and right extends, in the control flume It is slidably connected with the 4th sliding shoe, has compressed the second bullet between the 4th sliding shoe and the control flume right end inner wall Spring is that control flume front inner wall is rotatably assorted and is connected with the control knob that front and back extends, and the control knob is fixedly connected with positioned at being It is solid between the 4th sliding shoe and the abutment ring to the round rectangle block abutted with the 4th sliding shoe in control flume Surely it is connected with the second connecting rod that front and back extends, the control chamber front end surface, which is rotatably assorted, to be connected with positioned at the control flume right side End and front and back extend third rotation axis, and third rotation shaft rear end end is fixedly connected with the second spur gear, and described second is straight Gear mesh, which is connected with, to be fixedly connected with second connecting rod and controls the second rack gear extended, third rotation axis front end End is fixedly connected with the second rotation knob outside the milling stations, convenient for control fixture moving condition.

The beneficial effects of the present invention are: in the initial state due to equipment of the invention, the milling cutter is located at the milling Chamber center position, the milling fixture body are located at immediately below the milling cutter, the long spur gear and the driving straight-tooth gear teeth It closes, the drive bevel gear and the undertaking bevel gear are detached from, and the sliding bevel gear and the driving bevel gear are detached from, described Round rectangle block webbing is abutted against with the 4th sliding shoe, and whole device remain stationary state in this state, is convenient for work Smoothly orderly progress.

When being worked using equipment of the invention, the clamping knob is rotated, then passes through the clamping threaded rod band It is close to each other to move the link block, then drives the pivot link to be inclined outwardly by first sliding bar, then drives Second sliding bar slides in and out, and is located remotely from each other the grip block, by milled part put to the grip block it Between, it rotates backward the clamping and turns round, so that the grip block clamps milled part, start the motor, the motor band The driving spur gear and driving bevel gear rotation are moved, when needing to move up and down, the first rotation knob is rotated, then leads to Cross first rotation axis the ten four the first spur gears rotation, then by first connecting rod described in first rack drives to Front slide then drives the first rotating bar forward slip, then makes the undertaking spur gear and the drive bevel gear Ratcheting, then the driving spur gear drives the long spur gear rotation, then drives the biography by first rotating bar Dynamic bevel gear rotation, then drives the undertaking bevel gear to rotate, and the longitudinal screw bar is then driven to rotate, then drive First sliding shoe slides up and down, and the clamping device is then driven to move up and down, and when needing to move back and forth, passes through described One rotation knob controls the undertaking bevel gear and the drive bevel gear is detached from, and the second rotation knob is rotated, so that the circle Side rectangular block featheredge is abutted with the 4th sliding shoe, at this point, the sliding bevel gear and the driving bevel gear are ratcheting, then It drives described second to turn to bevel gear rotation, then drives described first to turn to bevel gear rotation, then pass through the second rotation axis It drives the third belt wheel to rotate, then drives second belt wheel to rotate by the third belt, then pass through the cross It drives the second sliding shoe to slide back and forth to threaded rod, when needing to move left and right, starts the servo motor, then pass through institute Stating chain driving wheel drives the chain to carry out back rotation, then drives the fixed block to move left and right, then drives the milling cutter It moves left and right, moving left and right when being easy to implement milling.

When completion cutting needs to store, controls the servo motor and the milling cutter is driven to return to initial position, control institute Stating motor drives the clamping device to be back to initial position, so that the driving bevel gear and the sliding bevel gear are detached from, So that the undertaking bevel gear and the drive bevel gear are detached from, device is restored to original state, used convenient for next time and its Maintenance.

The configuration of the present invention is simple, it is easy to control, clamping device and sliding equipment are equipped in device so that device in milling More rapidly and effectively holding parts and when milling, effectively move in the process, while being equipped with control mechanism again, control milling at any time Moving direction, control mechanism by control button manipulate so that the manipulation of device is more convenient, in addition, for control mode It is more convenient to be additionally provided with spring mechanism, it is worked using the milling that part is completed in each inter-agency different cooperations, is had very much It is effective.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of overall structure diagram of the component device for milling of the present invention；

Fig. 2 is the schematic cross-section of A in Fig. 1；

Fig. 3 is the schematic cross-section of B in Fig. 1；

Fig. 4 is the schematic cross-section of C in Fig. 2；

Fig. 5 is the partial enlargement diagram of D in Fig. 1.

Specific embodiment

As shown in Figs. 1-5, for sake of convenience, now hereafter described orientation is provided as follows: described in hereafter up and down Front-rear direction is consistent with the front-rear direction up and down of Fig. 1 projection relation itself, and a kind of part for milling of the invention fills It sets, including milling stations 100 and is set to the milling chamber 109 that 100 inner opening of milling stations extends forward and up and down, the milling Cut 109 upper end inner wall of chamber and be slidably connected with milling cutter device, the milling chamber 109 or so hold inner wall communicate equipped with symmetrical and The longitudinal sliding slot 112 extended up and down, 109 lower end of milling chamber are equipped with control chamber 127, the longitudinal sliding slot 112 and institute State the longitudinal screw bar 111 for being rotatably assorted between control chamber 127 and being connected with and extending up and down, the 111 upper end spiral shell of longitudinal screw bar Line is connected with sliding equipment, and clamp bottom board 117, the 117 upper end end of clamp bottom board are fixedly connected between the sliding equipment Face is fixedly connected with clamp mechanism, and 111 lower end of longitudinal screw bar is fixedly connected with first in the control chamber 127 Belt wheel 119,111 lower end end of longitudinal screw bar described in left end, which is fixedly connected with, accepts bevel gear 139, the first pulley 119 Between be connected by power the first belt 120, the 127 rear end inner wall of control chamber is embedded with motor 158, the motor 127 In the middle part of output shaft and end is fixedly connected with driving spur gear 133 and driving bevel gear 132, the driving spur gear 133 are ratcheting It is connected with positioned at 158 left end of motor to the transmission mechanism with the undertaking ratcheting connection of bevel gear 139, it is described

132 right end of driving bevel gear is equipped with to the control mechanism with its ratcheting connection.

Valuably, wherein the milling cutter device includes that 109 upper end of milling chamber is equipped with the cutter mobile cavity 101 that left and right extends, It is communicated between the cutter mobile cavity 101 and the milling chamber 109 and is equipped with the cutter sliding groove 107 that left and right extends, the cutter 101 bottom interior wall of mobile cavity is embedded with servo motor 110, and the servo motor 110 exports shaft end and is fixedly connected with positioned at institute The chain driving wheel 102 of 101 left end of cutter mobile cavity is stated, 101 right end of mobile cavity and its bottom interior wall hinge are connected to chain Driven wheel 108 has been connected by power chain 103, the chain 103 between the chain driven wheel 108 and the chain driving wheel On be fixedly connected with fixed block 105,105 lower end surface of fixed block is fixedly connected with and the cutter sliding groove 107 slides The sliding bar 104 for being cooperatively connected and extending up and down, 104 lower end of sliding bar is fixedly connected with milling cutter 106, is easy to implement milling And its milling moves left and right.

Valuably, wherein the sliding equipment includes that 111 threaded upper ends of longitudinal screw bar are connected with and the longitudinal direction The first sliding shoe 114 that sliding groove 112 is slidably connected, first sliding shoe 114 are fixedly connected with position close to symmetrical end In the transverse direction in the sliding rail 115 that front and back extends in the milling chamber 109, the sliding rail 115 equipped with opening upwards and front and back extension Sliding groove 116, it is described slide laterally 116 rear end inner wall of slot be rotatably assorted be connected with front and back extend horizontal thread bar 118, it is described Lateral 118 nose threads of horizontal thread bar be connected with it is described slide laterally slot 116 sliding connection and with the fixture bottom The second sliding shoe 113 that plate 117 is fixedly connected, 111 rear end of horizontal thread bar are fixedly connected with after the sliding rail 115 Second belt wheel 156 at end has been connected by power the second belt 155 between second belt wheel 156, be easy to implement the upper and lower of milling and It is moved forward and backward.

Valuably, wherein the clamp mechanism includes that 117 top end surface of clamp bottom board is fixedly connected with milling fixture Body 159, the interior holding chamber 171 for being equipped with opening upwards of the milling fixture body 159, the end of holding chamber 171 or so is equipped with opposite The rotation chamber 160 for claiming and extending up and down, 171 lower end of holding chamber are equipped with the sliding cavity 166 that left and right extends, the sliding cavity 166 right end inner walls, which are rotatably assorted, is connected with the clamping threaded rod 165 that left and right extends, and the 165 left end screw thread of clamping threaded rod connects It is connected to bilateral symmetry link block 164,165 right end of clamping threaded rod is fixedly connected with outside the milling fixture body 159 Clamping knob 167, be slidably connected between the rotation chamber 160 and the sliding cavity 166 and the link block 164 be fixed The first sliding bar 163 that connection and left and right extend, is slidably connected between the holding chamber 171 and the rotation chamber 160 The second sliding bar 173 that left and right extends, the hinge of the second sliding bar 173 are connected to the grip block in the holding chamber 171 172, being hinged to be connected between first sliding bar 163 and the second sliding bar connecting rod 173 turns with 160 inner wall of rotation chamber The dynamic rotation connection bar 162 for being cooperatively connected and extending up and down, convenient for the clamping of milled part.

Valuably, wherein the transmission mechanism includes that 127 bottom interior wall of control chamber is fixedly connected with and extends up and down First fixed plate 134, the first rotating bar 144 that first fixed plate 134 extends before and after being slidably connected with, described first 144 rear end of rotating bar is fixedly connected with the long spur gear 140 with the driving ratcheting connection of spur gear 133, first rotation 144 front end of bar is fixedly connected with to the drive bevel gear 135 with the undertaking ratcheting connection of bevel gear 139, is convenient for band Dynamic sliding equipment movement.

Valuably, first rotating bar 144, which is rotatably assorted, is connected with positioned at first fixed plate 134 and the transmission Annulus 170 between bevel gear 135, the control sliding that the 127 left end inner wall of control chamber is equipped with opening to the right and front and back extends Slot 137,2 are slidably connected with third sliding shoe 136 in the control sliding groove 137, the third sliding shoe 136 with it is described First connecting rod 138 is fixedly connected between annulus 170, the 127 left end inner wall of control chamber, which is rotatably assorted, to be connected with positioned at institute The first rotation axis 142 that control 137 rear end of sliding groove and left and right extend is stated, 142 left end of the first rotation axis is fixedly connected with The first rotation knob 169 outside the milling stations 100, it is straight that the 142 right end end of the first rotation axis is fixedly connected with first Gear 143, first spur gear is ratcheting to be connected with and is fixedly connected with the first connecting rod 138 and the first tooth that front and back extends Item 141, convenient for controlling the connection of transmission mechanism and sliding equipment.

Valuably, wherein the control mechanism include the 127 rear end inner wall of control chamber be rotatably assorted be connected with front and back prolong The second rotation axis 122 stretched, the 122 rear end end of the second rotation axis are fixedly connected with third belt wheel 157, the third belt wheel Third belt 154 is connected by power between the second belt wheel described in right end, 122 front end of the second rotation axis is fixedly connected There is be located in the control chamber 127 first to turn to bevel gear 121,127 lower end inner wall of control chamber, which is fixedly connected with, to be located at First fixed plate, 134 right end and the second fixed plate 124 extended up and down, second fixed plate 124 are rotatably assorted connection The second rotating bar 123 for having left and right to extend, the 123 right end end of the second rotating bar is fixedly connected with and the steering bevel gear The second of 121 ratcheting connections turns to bevel gear 128, and 123 left end of the second rotating bar is equipped with spline 125, and the spline 125 is sliding It is dynamic to be connected with to the sliding bevel gear 130 with the ratcheting connection of the driving bevel gear 132, the sliding bevel gear 130 The first spring 129 is compressed between second fixed plate 124, second rotating bar 123 is rotated and is slidably connected Have and support the abutment ring 131 closed with the sliding bevel gear 130, convenient for controlling the movement of fixture.

Valuably, 127 front inner wall of control chamber is equipped with the control flume 146 that left and right extends, and slides in the control flume 146 It is dynamic to be connected with the 4th sliding shoe 147, second has been compressed between 146 right end inner wall of the 4th sliding shoe and the control flume Spring 148, be 146 front inner wall of control flume be rotatably assorted be connected with front and back extend control knob 153, the control knob 153 consolidate Surely it is connected with that be located at be in control flume 146 to the round rectangle block 145 abutted with the 4th sliding shoe 147, the described 4th The second connecting rod 152 that front and back extends is fixedly connected between sliding shoe 147 and the abutment ring 131, before the control chamber 127 End end face, which is rotatably assorted, to be connected with positioned at 146 right end of control flume and front and back extension third rotation axis 149, the third rotation 149 rear end end of axis is fixedly connected with the second spur gear 150, and ratcheting be connected with of second spur gear 150 connects with described second The second rack gear 151 that extension bar 152 is fixedly connected and left and right extends, 149 front end of third rotation axis are fixedly connected with position In the second rotation knob 168 outside the milling stations 100, convenient for control fixture moving condition.

In the initial state, the milling cutter 106 is located at 109 center position of milling chamber to equipment of the invention, described Milling fixture body 159 is located at immediately below the milling cutter 106, and the long spur gear 140 and the driving spur gear 133 are ratcheting, institute It states drive bevel gear 135 and the undertaking bevel gear 139 is detached from, the sliding bevel gear 130 and the driving bevel gear 132 are de- From 145 webbing of round rectangle block is abutted against with the 4th sliding shoe 147, and whole device is remain stationary in this state State, the progress orderly convenient for everything goes well with your work.

When being worked using equipment of the invention, the clamping knob 167 is rotated, the clamping threaded rod is then passed through 165 drive the link block 164 close to each other, then drive the pivot link 162 outward by first sliding bar 163 Inclination, then drives second sliding bar 173 to slide in and out, is located remotely from each other the grip block 172, by milling zero Part, which is put between the grip block 172, rotating backward the clamping, turns round 167, so that the grip block 172 clamps milled part, Start the motor 158, the motor drives the driving spur gear 133 and the driving bevel gear 132 to rotate, needs When moving up and down, the first rotation knob 169 is rotated, first rotation axis 142, the ten four the first spur gear 143 is then passed through Rotation then drives 138 forward slip of first connecting rod by first rack gear 141, then drives described first turn 144 forward slip of lever then makes the undertaking spur gear 139 and the drive bevel gear 135 ratcheting, the then driving Spur gear 133 drives the long spur gear 140 to rotate, and then drives the drive bevel gear by first rotating bar 144 135 rotations, then drive the undertaking bevel gear 139 to rotate, and the longitudinal screw bar 111 is then driven to rotate, then drive First sliding shoe 114 slides up and down, and the clamping device is then driven to move up and down, and when needing to move back and forth, passes through institute It states the first rotation knob 169 and controls the undertaking bevel gear 139 and the drive bevel gear 135 disengaging, rotate second rotation Knob 168 so that the round edge rectangular block featheredge is abutted with the 4th sliding shoe 147, at this point, the sliding bevel gear 130 with The driving bevel gear 132 is ratcheting, then drives described second to turn to bevel gear 128 and rotates, then drives described first to turn to Bevel gear 121 rotates, and then drives the third belt wheel 157 to rotate by the second rotation axis 122, then passes through the third skin Band drives second belt wheel 156 to rotate, and then drives 113 front and back of the second sliding shoe by the horizontal thread bar 118 Sliding, when needing to move left and right, starts the servo motor 110, then drives the chain by the chain driving wheel 102 103 carry out back rotation, and the fixed block 105 is then driven to move left and right, and the milling cutter 106 is then driven to move left and right, convenient for real Moving left and right when existing milling.

When completion cutting needs to store, controls the servo motor 110 and the milling cutter 106 is driven to return to initial position, Controlling the motor 158 drives the clamping device to be back to initial position, so that the driving bevel gear 132 and the sliding Bevel gear 130 is detached from, so that the undertaking bevel gear 139 and the drive bevel gear 135 are detached from, device is restored to initial shape State is used and its is maintained convenient for next time.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims

1. a kind of component device for milling of the invention, including milling stations and it is set to the milling stations inner opening forward And the milling chamber extended up and down, milling chamber upper end inner wall are slidably connected with milling cutter device, described milling chamber or so end Inner wall is communicated equipped with longitudinal sliding slot that is symmetrical and extending up and down, and milling chamber lower end is equipped with control chamber, described longitudinal sliding Be rotatably assorted the longitudinal screw bar for being connected with and extending up and down between dynamic slot and the control chamber, the longitudinal screw bar threaded upper ends It is connected with sliding equipment, clamp bottom board is fixedly connected between the sliding equipment, clamp bottom board upper end end face is fixed to be connected It is connected to clamp mechanism, longitudinal screw bar lower end is fixedly connected with the first pulley in the control chamber, described in left end Longitudinal screw bar lower end end, which is fixedly connected with, accepts bevel gear, has been connected by power the first belt, institute between the first pulley State control cavity rear end inner wall and be embedded with motor, in the middle part of the motor output shaft and end be fixedly connected with driving spur gear and Driving bevel gear, the driving spur gear is ratcheting to be connected with positioned at the motor left end to connect with stacking cone gear mesh Transmission mechanism, the driving bevel gear right end be equipped with to the control mechanism with its ratcheting connection.

2. a kind of component device for milling according to claim 1, it is characterised in that: the wherein milling cutter device packet It includes milling chamber upper end and is equipped with the cutter mobile cavity that left and right extends, communicate and set between the cutter mobile cavity and the milling chamber The cutter sliding groove for having left and right to extend, the cutter mobile cavity bottom interior wall are embedded with servo motor, the servo motor output Shaft end is fixedly connected with the chain driving wheel positioned at cutter mobile cavity left end, the mobile cavity right end and its bottom interior wall Hinge is connected to chain driven wheel, and chain, the chain have been connected by power between the chain driven wheel and the chain driving wheel On be fixedly connected with fixed block, the lower end of fixing block end face be fixedly connected with cutter sliding groove sliding connection and The sliding bar extended up and down, the sliding bar lower end are fixedly connected with milling cutter, are easy to implement moving left and right for milling and its milling.

3. a kind of component device for milling according to claim 1, it is characterised in that: the wherein sliding equipment packet It includes the longitudinal screw bar threaded upper ends and is connected with the first sliding shoe with longitudinal sliding slot sliding connection, described the One sliding shoe is fixedly connected with the sliding rail extended positioned at the intracavitary front and back of the milling close to symmetrical end, is equipped with opening in the sliding rail Upwards and front and back extend slide laterally slot, it is described slide laterally slot rear end inner wall and be rotatably assorted be connected with the transverse direction that front and back extends Threaded rod, it is described transverse direction horizontal thread bar nose threads be connected with it is described slide laterally slot sliding connection and with the folder The second sliding shoe that tool bottom plate is fixedly connected, the horizontal thread rod rear end are fixedly connected with second positioned at the sliding rail rear end Belt wheel has been connected by power the second belt between second belt wheel, is easy to implement the upper and lower of milling and is moved forward and backward.

4. a kind of component device for milling according to claim 1, it is characterised in that: the wherein clamp mechanism packet It includes the clamp bottom board top end surface and is fixedly connected with milling fixture body, the clamping of opening upwards is equipped in the milling fixture body Chamber, described holding chamber or so end are equipped with rotation chamber that is symmetrical and extending up and down, and the holding chamber lower end is equipped with what left and right extended Sliding cavity, the sliding cavity right end inner wall, which is rotatably assorted, is connected with the clamping threaded rod that left and right extends, and the clamping threaded rod is left End is threaded with bilateral symmetry link block, and the clamping threaded rod right end is fixedly connected with external positioned at the milling fixture Knob is clamped, is slidably connected between the rotation chamber and the sliding cavity and is fixedly connected with the link block and controls extension The first sliding bar, the holding chamber and it is described rotation chamber between be slidably connected with left and right extend the second sliding bar, institute It states the second sliding bar hinge and is connected to the grip block in the holding chamber, first sliding bar and second sliding bar connect It is hinged to be connected between bar and be rotatably assorted the rotation connection bar for connecting and extending up and down with the rotation cavity wall, convenient for milled part Clamping.

5. a kind of component device for milling according to claim 1, it is characterised in that: the wherein transmission mechanism packet It includes the control chamber bottom interior wall and is fixedly connected with the first fixed plate extended up and down, the first fixed plate sliding connection The first rotating bar for having front and back to extend, the first rotation rod rear end are fixedly connected with and the driving ratcheting connection of spur gear Long spur gear, the first rotating bar front end are fixedly connected with the transmission cone to connect with the stacking cone gear mesh Gear, convenient for driving sliding equipment movement.

6. a kind of component device for milling according to claim 5, it is characterised in that: the first rotating bar rotation The annulus being connected between first fixed plate and the drive bevel gear, control chamber left end inner wall are equipped with Opening to the right and the control sliding groove that extends of front and back, is slidably connected with third sliding shoe in the control sliding groove, described First connecting rod is fixedly connected between third sliding shoe and the annulus, control chamber left end inner wall, which is rotatably assorted, to be connected with Positioned at the control sliding groove rear end and the first rotation axis of left and right extension, first rotation axis left end, which is fixedly connected with, to be located at The first rotation knob outside the milling stations, the first rotation axis right end end are fixedly connected with the first spur gear, and described first Spur gear is ratcheting to be connected with and is fixedly connected with the first connecting rod and the first rack gear that front and back extends, convenient for control transmission mechanism With the connection of sliding equipment.

7. a kind of component device for milling according to claim 1, it is characterised in that: the wherein control mechanism packet Include it is described control cavity rear end inner wall be rotatably assorted be connected with front and back extend the second rotation axis, it is described second rotation shaft rear end end It is fixedly connected with third belt wheel, third belt has been connected by power between the second belt wheel described in the third belt wheel and right end, it is described What the second rotation axis front end was fixedly connected in the control chamber first turns to bevel gear, in the control chamber lower end The second fixed plate that wall is fixedly connected with positioned at the first fixed plate right end and extends up and down, the second fixed plate rotation are matched It closes and is connected with the second rotating bar that left and right extends, the second rotating bar right end end is fixedly connected with and the steering bevel gear The second of ratcheting connection turns to bevel gear, and second rotating bar left end is equipped with spline, and the spline slide is cooperatively connected useful With the sliding bevel gear with the ratcheting connection of the driving bevel gear, compressed between the sliding bevel gear and second fixed plate There is the first spring, second rotating bar, which is rotated and is slidably connected with, supports the abutment ring closed with the sliding bevel gear, just In the movement of control fixture.

8. a kind of component device for milling according to claim 7, it is characterised in that: the control chamber front inner wall Equipped with the control flume that left and right extends, the 4th sliding shoe, the 4th sliding shoe and institute are slidably connected in the control flume State and compressed second spring between control flume right end inner wall, be control flume front inner wall be rotatably assorted be connected with front and back extend control Knob processed, the control knob are fixedly connected with that be located at be in control flume to the round rectangle block abutted with the 4th sliding shoe, The second connecting rod that front and back extends, control chamber front end end are fixedly connected between 4th sliding shoe and the abutment ring Face, which is rotatably assorted, to be connected with positioned at the control flume right end and front and back extension third rotation axis, third rotation shaft rear end end It is fixedly connected with the second spur gear, second spur gear is ratcheting to be connected with and be fixedly connected with second connecting rod and left and right is prolonged The second rack gear stretched, the third rotation axis front end are fixedly connected with the second rotation knob outside the milling stations, just In control fixture moving condition.