CN207495077U - A kind of machining tool that can prevent tool changing from interfering - Google Patents
A kind of machining tool that can prevent tool changing from interfering Download PDFInfo
- Publication number
- CN207495077U CN207495077U CN201721706560.4U CN201721706560U CN207495077U CN 207495077 U CN207495077 U CN 207495077U CN 201721706560 U CN201721706560 U CN 201721706560U CN 207495077 U CN207495077 U CN 207495077U
- Authority
- CN
- China
- Prior art keywords
- tool magazine
- tool
- column
- saddle
- transverse shifting
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
A kind of machining tool that can prevent tool changing from interfering including lathe bed, transverse shifting component, longitudinal movement component, column, head, slides saddle, tool magazine, main shaft, tool magazine mounting bracket and multiple fixtures;The transverse shifting component is set on the lathe bed, the slip saddle is set on the transverse shifting component, the transverse shifting component is used to that the slip saddle to be driven to move laterally, the longitudinal movement component is set on the slip saddle, the column is set on the longitudinal movement component, and the longitudinal movement component is used to that the column to be driven to vertically move;On the left of the column and right side is both provided with tool magazine, and tool changing tool arm is both provided on the tool magazine, the tool changing of main shaft on tool magazine and head;Left tool magazine and the right tool magazine are one in front and one in back set, and are to ensure in tool changing, during main shaft tool changing, will not be interfered between two tool changing tool arms, ensure the fluency of exchanging knives process.
Description
Technical field
The utility model is related to numerical control machine tool technique fields, and in particular to a kind of processing machine that can prevent tool changing from interfering
Bed.
Background technology
Existing lathe is mostly uniaxial, therefore when the part big to dimensional structure is processed, and efficiency is very low, so
Currently there is the machining tool for having multiaxis that can process simultaneously, when processing more complicated part, often to have changed
Knife, but the problem of the main shaft of machining tool during tool changing in order to avoid interfering at present, tool magazine can all be set remote
From main shaft, it is done so that the problem of just resulting in tool changing path length and slow tool-changing speed again, influences processing efficiency.Moreover, mesh
Preceding machining tool is only processed simultaneously for two axis mostly, and when elongated workpieces to be processed, processing efficiency is not still caught up with.
In addition, for same workpiece, it may require that on workpiece and multiple faces be processed sometimes successively, present case
Under, during using existing two axis processing machines bed workpieces processing, after the processing that complete a face first, then work is removed from fixture
Workpiece is processed by part again mounted on another machining tool or again on clamping to current lathe.But this sample loading mode is deposited
In some shortcomings, such as require a great deal of time dismounting and clamping, influence production efficiency;In addition multiple clamping also holds
The position inaccurate of workpiece is easily caused, causes machining accuracy inadequate, processes substandard products.
Utility model content
The purpose of this utility model is that for shortcoming of the prior art, providing one kind can prevent tool changing from interfering
Machining tool.
For this purpose, the utility model uses following technical scheme:A kind of machining tool that can prevent tool changing from interfering,
Including lathe bed, transverse shifting component, longitudinal movement component, column, head, slide saddle, tool magazine, main shaft, tool magazine mounting bracket and
Multiple fixtures;
The transverse shifting component is set on the lathe bed, and the slip saddle is set to the transverse shifting component
On, for the slip saddle to be driven to move laterally, the longitudinal movement component is set to described the transverse shifting component
It slides on saddle, the column is set on the longitudinal movement component, and the longitudinal movement component is used to drive the column
It vertically moves;
The head is set to the column, on the head setting there are two main shaft, two main shaft longitudinal arrangements and
Away from setting;Each tool magazine is set on the tool magazine mounting bracket, and the tool magazine mounting bracket is connected to the slip saddle, institute
It states on the left of column and right side is both provided with tool magazine, tool changing tool arm is both provided on the tool magazine, the main shaft on tool magazine and head
Tool changing;
The tool magazine being set on the left of the column is left tool magazine, and it is right tool magazine to be set to the tool magazine on the right side of the column;Institute
It states left tool magazine and the right tool magazine is non-arranged side by side, the left tool magazine is set to the lower-left rear of the column, the right tool magazine
It is set to the right front of the column;And the sum of radius length of tool changing tool arm on left tool magazine and right knife is less than left tool magazine cutter shaft
Length between center and right tool magazine cutter shaft center.
Multiple fixtures are arranged side by side on the lathe bed, and the length direction of the fixture is set as laterally, the folder
Tool can be rotated around its center line.
Preferably, there are two fixtures for setting on the lathe bed;It is disposed adjacent between front and rear fixture two-by-two;
The fixture is included in turntable, tailstock, clamp bottom board, benchmark backing plate and clamp assembly;
The turntable and tailstock are set on the lathe bed, the both ends of the clamp bottom board be respectively arranged at the turntable and
On tailstock, the clamp bottom board is driven to rotate by the turntable;
The benchmark backing plate is set on the clamp bottom board, and the clamp assembly is set on the clamp bottom board and locates
In the front and rear sides of the benchmark backing plate, the clamp assembly is used to be clamped the workpiece on benchmark backing plate.
Preferably, the clamp assembly includes front clamping cylinder and clamping sides cylinder;
The front clamping cylinder is fixed on the clamp bottom board, and the motion end of the front clamping cylinder is in described
The top of benchmark backing plate;
The clamping sides cylinder is fixed on the clamp bottom board, described in the motion end alignment of the clamping sides cylinder
The side of benchmark backing plate.
Preferably, the front clamping cylinder is corner oil cylinder.
Preferably, the fixture further includes located lateral benchmark;The located lateral benchmark is set to the benchmark backing plate
Left end on the outside of or right end on the outside of.
Preferably, the transverse shifting component includes transverse shifting guide rail, rack, gear and cross motor;
The transverse shifting guide rail is set to the top of the lathe bed and laterally setting, and the slip saddle is set to described
On transverse shifting guide rail;The rack is set to the top of the lathe bed and is similarly lateral setting, the cross motor setting
In on the slip saddle, the output terminal of the cross motor is connected to the gear, and the cross motor drives the gear
Rotation, the gear are driven with rack intermeshing.
Preferably, the longitudinal movement component includes longitudinal motor, screw, nut and longitudinal movement rail;
The longitudinal movement rail is set on the slip saddle, and the column is movably set in the longitudinal movement and leads
Rail, the longitudinal motor are set on the slip saddle, and the both ends of the screw are set on the slip saddle;It is described vertical
The screw is connected to the output terminal of motor, the screw is driven to rotate, the nut is set on the screw, with screw
Cooperate transmission, and the nut is connected to the column.
Preferably, it is additionally provided with shred holding up plate on the tool magazine mounting bracket;
The shred holding up plate is connected to the slip saddle and bends towards the fixture.
Preferably, the tool magazine mounting bracket includes mounting base, connecting plate, installation top plate and angle steel;
The mounting base is connected to the slip saddle, and one end of the connecting plate is connected to the mounting base, institute
The other end for stating connecting plate is connected to the installation top plate, and the connecting plate is obliquely installed to machining tool outside, the angle steel
A plane be connected to the installation top plate, the tool magazine is connected to another plane of the angle steel.
The beneficial effects of the utility model:Because two main shafts on head are simultaneously to the work of the similary specification on fixture
What part was processed, the action of two main shafts is synchronous, so the rear tool changing of retracting of column is also synchronous.Cause left tool magazine
It is one in front and one in back set with the right tool magazine, is to ensure in tool changing, during main shaft tool changing, will not be sent out between two tool changing tool arms
Raw interference ensures the fluency of exchanging knives process.The productivity of lathe is about twice of single main axle machine tool, but floor space is only than it
Bigger, energy consumption, operator's number and maintenance cost are also close with single main shaft, meet the main trend of current energy-saving and emission-reduction.Lathe is pacified
Than two single main axle machine tools of the functional component of dress are few, a set of control system, drive system and lubricating and cooling system only needed, so selling
Valency is only higher than single main axle machine tool by 35~40%.If calculate the lathe total system investment including broach shell, cutter etc., double main shaft machines
Bed is more than realizing that two single main axle machine tool investments of equal productivity are low by 60%.
Description of the drawings
The utility model is further illustrated with reference to the accompanying drawings and examples.
Fig. 1 is the overall structure diagram of one of embodiment of the utility model;
Fig. 2 is structure enlargement diagram at B in Fig. 1;
Fig. 3 is the overall structure diagram of one of embodiment of the utility model;
Fig. 4 is the overall structure diagram of one of embodiment of the utility model;
Fig. 5 is structure enlargement diagram at A in Fig. 4;
Fig. 6 is the overall structure diagram of one of embodiment of the utility model.
Wherein:Lathe bed 1, transverse shifting component 2, transverse shifting guide rail 21, rack 22, cross motor 23, speed reducer 24 are indulged
To moving assembly 3, longitudinal motor 31, screw 32, longitudinal movement rail 33, column 4, head 5, slip saddle 6, tool magazine 7, main shaft
8, tool magazine mounting bracket 9, mounting base 91, connecting plate 92, installation top plate 93, angle steel 94, shred holding up plate 95, fixture 10, turntable 101,
Tailstock 102, clamp bottom board 103, benchmark backing plate 104, clamp assembly 105, located lateral benchmark 106, front clamping cylinder 1051,
Clamping sides cylinder 1052, tool changing tool arm 12.
Specific embodiment
Further illustrate the technical solution of the utility model below with reference to the accompanying drawings and specific embodiments.
It is a kind of can prevent tool changing interfere machining tool, including lathe bed 1, transverse shifting component 2, longitudinal movement component 3,
Column 4, slides saddle 6, tool magazine 7, main shaft 8, tool magazine mounting bracket 9 and multiple fixtures 10 at head 5;
The transverse shifting component 2 is set on the lathe bed 1, and the slip saddle 6 is set to the transverse shifting group
On part 2, for the slip saddle 6 to be driven to move laterally, the longitudinal movement component 3 is set the transverse shifting component 2
In on the slip saddle 6, the column 4 is set on the longitudinal movement component 3, and the longitudinal movement component 3 is used for band
The column 4 is moved to vertically move;
The head 5 is set to the column 4, and there are two main shaft 8, two 8 longitudinal arrangements of main shaft for setting on the head 5
And spacing is set;Each tool magazine 7 is set on the tool magazine mounting bracket 9, and the tool magazine mounting bracket 9 is connected to the slip
Saddle 6,4 left side of column and right side are both provided with tool magazine 7, tool changing tool arm 12 are both provided on the tool magazine 7, for tool magazine
7 with head 5 on main shaft 8 tool changing;
The tool magazine 7 for being set to 4 left side of column is left tool magazine, and the tool magazine 7 for being set to 4 right side of column is right knife
Library;The left tool magazine and the right tool magazine are non-arranged side by side, and the left tool magazine is set to the lower-left rear of the column 4, described
Right tool magazine is set to the right front of the column 4;And the sum of radius length of tool changing tool arm 12 on left tool magazine and right knife 7 is less than
Length between left tool magazine cutter shaft center and right tool magazine cutter shaft center.
Multiple fixtures 10 are arranged side by side on the lathe bed 1, and the length direction of the fixture 10 is set as laterally, institute
Stating fixture 10 can rotate around its center line.
During processing, workpiece is installed on fixture 10, multiple workpiece can respectively simultaneously clamping on different fixtures 10.
Start the transverse shifting component 2, column 4 driven to move laterally, so as to the main shaft 8 on head 5 can transverse shifting simultaneously,
In addition start longitudinal movement component 3, the column 4 is driven to vertically move, so that main shaft 8 can reach the upper of workpiece
Side, it is convenient that workpiece is processed.Each main shaft 8 one workpiece of corresponding processing respectively on head 5, when processing are right first
What one face of workpiece was processed, when needing that other face is processed to workpiece, at this moment choose whether to the main shaft on head 5
8 carry out tool changing, if necessary to tool changing, then start longitudinal movement component 3 and column 4 is driven to move backward, after falling back on certain position,
Two main shafts 8 on head 5 carry out tool changing by tool changing tool arm 12 respectively, and it is vertical to restart the longitudinal movement drive of component 3 after tool changing
Column 4 moves.
Because two main shafts 8 on head 5 are that the workpiece of the similary specification on fixture 10 is processed simultaneously, two
The action of main shaft 8 is synchronous, so the rear tool changing of retracting of column 4 is also synchronous.Cause left tool magazine 7 and the right tool magazine 7
It one in front and one in back sets, is to ensure in tool changing, during 8 tool changing of main shaft, will not interfere, protect between two tool changing tool arms 12
Demonstrate,prove the fluency of exchanging knives process.
Tool magazine 7 is the side in the column 4, it is possible to which, in the case where not influencing production, quick realize is changed
Knife ensures processing efficiency.
After a face for processing finished piece(s), when other face is processed to workpiece, at this moment selects simultaneously or separate
Rotate the fixture 10, the fixture 10 is with regard to driving the workpiece of clamping on it to be overturn so that workpiece turning is to will process
Plane, main shaft 8 is to work pieces process on rear head 5.
Due to multiple fixtures 10 multiple workpiece of clamping simultaneously, on head 5 main shaft 8 these workpiece can be carried out at the same time plus
Work, so within the same time, processing efficiency is just high.In addition, when will the other face processing to workpiece when, only need turnover fixture 10 i.e.
Workpiece may be reversed, do not need to clamping workpiece again, be not in the situation of resetting, ensure the precision of processing.Furthermore head 5
On main shaft 8 be synchronized with the movement, be not to separate self-movement, when processing respectively processes itself corresponding workpiece, will not
The movement of other main shaft 8 is influenced, is kept for can make processing action each 8 moment of main shaft, is further ensured that processing efficiency.
The transverse direction herein referred to is the left and right directions in figure, and longitudinal direction is the front-rear direction in figure.
Further, there are two fixtures 10 for setting on the lathe bed 1;It is disposed adjacent between front and rear fixture two-by-two 10;
The fixture 10 is included in turntable 101, tailstock 102, clamp bottom board 103, benchmark backing plate 104 and clamp assembly 105;
The turntable 101 and tailstock 102 are set on the lathe bed 1, and the both ends of the clamp bottom board 103 are respectively arranged at
On the turntable 101 and tailstock 102, the clamp bottom board 103 is driven to rotate by the turntable 101;
The benchmark backing plate 104 is set on the clamp bottom board 103, and the clamp assembly 105 is set to the fixture
On the bottom plate 103 and front and rear sides in the benchmark backing plate 104, the clamp assembly 105 are used for on benchmark backing plate 104
Workpiece is clamped.
During processing, two main shafts 8 on one of column 4 are processed the workpiece on front and rear fixture two-by-two 10, need
When being processed to the length direction of workpiece, drive the transverse shifting component 2 that column 4 is driven to move laterally i.e. automatically
It can.
Before processing, workpiece is placed on the benchmark backing plate 104, benchmark backing plate 104 realizes positioning for workpiece.Then with folder
Tight component 105 is clamped the workpiece on benchmark backing plate 104, and workpiece can be just locked, convenient that workpiece is processed.
After positive completion of processing of the main shaft 8 to workpiece, turning calmly for the clamp bottom board 103 is driven by turntable 101 so that reference pads
Plate 104 is overturn therewith, so workpiece is also overturn with benchmark backing plate 104, main shaft 8 can workpieces processing side, it is above-mentioned
Turntable 101 rotation it is very rapid, and workpiece do not have to resetting and locking, ensure that the front of workpiece and side can all have together
One machining benchmark ensures the machining accuracy of workpiece.
Further, the clamp assembly 105 includes front clamping cylinder 1051 and clamping sides cylinder 1052;
The front clamping cylinder 1051 is fixed on the clamp bottom board 103, and the front clamping cylinder 1051 moves
Make the top that end is in the benchmark backing plate 104;
The clamping sides cylinder 1052 is fixed on the clamp bottom board 103, and the clamping sides cylinder 1052 moves
Make the side that end is directed at the benchmark backing plate 104.
Before unprocessed workpiece, workpiece is put on the benchmark backing plate 104, workpiece realizes positioning by benchmark backing plate 104
Afterwards, at this moment by driving the front clamping cylinder 1051 and clamping sides cylinder 1052 so that front clamping cylinder 1051
Motion end is pressed in the front face surface of workpiece so that the motion end of clamping sides cylinder 1052 is withstood on the side of workpiece, workpiece
It is just clamped completely, ensures to loosen and shift in process, improve processing stability.
Further, the front clamping cylinder 1051 is corner oil cylinder.
The time for clamping and releasing workpiece, and the positioning accurate of corner oil cylinder are just the reduction of using the benefit of corner oil cylinder
Degree is also high, and the repeatability of clamping force ensure that the accuracy of positioning and clamping.
Further, the fixture 10 further includes located lateral benchmark 106;The located lateral benchmark 106 is set to
On the outside of the left end of the benchmark backing plate 104 or on the outside of right end.
After workpiece is put into benchmark backing plate 104, the transverse direction of workpiece can be also locked, and increase the located lateral base of workpiece
Standard 106 is more easily realized workpiece and is positioned.
Further, the transverse shifting component 2 includes transverse shifting guide rail 21, rack 22, gear and cross motor
23;
The transverse shifting guide rail 21 is set to the top of the lathe bed 1 and laterally setting, and the slip saddle 6 is set to
On the transverse shifting guide rail 21;The rack 22 is set to the top of the lathe bed 1 and is similarly lateral setting, the transverse direction
Motor 23 is set on the slip saddle 6, and the output terminal of the cross motor 23 is connected to the gear by speed reducer 24,
The cross motor 23 drives the gear to rotate by speed reducer 24, and the gear is driven with the rack 22 intermeshing.
The action of cross motor 23 drives the gear rotation, so that being intermeshed between gear and the rack 22
Transmission enables the slip saddle 6 move laterally along the transverse shifting guide rail 21, so that main shaft 8 can be made
Transverse shifting, it is convenient that lateral processing is carried out to workpiece.Many parts are carried on saddle 6 because sliding, slide bed
The weight that saddle 6 is born is still very big, and during 22 auxiliary driving of rack-and-pinion, and bearing capacity is big and high transmission accuracy, transmission process
It is also stable, so selection has used 22 pair of rack-and-pinion to be driven here.
Further, the longitudinal movement component 3 includes longitudinal motor 31, screw 32, nut and longitudinal movement rail
33;
The longitudinal movement rail 33 is set on the slip saddle 6, and the column 4 is movably set in the longitudinal direction and moves
Dynamic guide rail 33, the longitudinal motor 31 are set on the slip saddle 6, and the both ends of the screw 32 are set to the slip bed
On saddle 6;The output terminal of the longitudinal motor 31 is connected to the screw 32, and the screw 32 is driven to rotate, the nut setting
It on the screw 32, cooperates and is driven with screw 32, the nut is connected to the column 4.
The action of longitudinal motor 31 drives the screw 32 to rotate, and is passed so that being intermeshed between screw 32 and nut
It is dynamic, the column 4 is enabled to be vertically moved along the longitudinal movement rail 33, so that main shaft 8 can be separate or close
The fixture 10 realizes and advances to the processing of workpiece and the tool changing of main shaft 8 is retracted, because to the process of workpiece not only only
A kind of process tool can be used, but a variety of process tools transformation of meeting use, and the movement of column 4 is driven just with 32 pair of nut of screw
Can accomplish mobile rapid, the position that column 4 moves every time is all accomplished accurately, it can be ensured that the machining accuracy of workpiece with change
To the accuracy of process.
Further, it is additionally provided with shred holding up plate 95 on the tool magazine mounting bracket 9;
The shred holding up plate 95 is connected to the slip saddle 6 and bends towards the fixture 10.
The main shaft 8 is processed to workpiece, and shred holding up plate 95 can stop that clast caused by cutting workpiece flies to institute
It states and slides on saddle 6 and longitudinal movement component 3, in order to avoid influence the movement of column 4.
Further, the tool magazine mounting bracket 9 includes mounting base 91, connecting plate 92, installation top plate 93 and angle steel 94;
The mounting base 91 is connected to the slip saddle 6, and one end of the connecting plate 92 is connected to the installation bottom
Plate 91, the other end of the connecting plate 92 are connected to the installation top plate 93, and the connecting plate 92 is tilted to machining tool outside
Setting, a plane of the angle steel 94 are connected to the installation top plate 93, and the tool magazine 7 is connected to the another flat of the angle steel 94
Face.
The center of the tool magazine 7 is the center for deviateing the tool magazine mounting bracket 9 so that the tool magazine 7 is biased into close
Beyond the fixture 10.Because of the limitation of the shred holding up plate 95, the tool magazine mounting bracket 9 is needed for the shred holding up plate 95
Out position is allowed, so that the connecting plate 92 is obliquely installed.In addition, the tool magazine 7 leans near with the fixture 10, make
The tool changing distance for obtaining main shaft 8 on head 5 is shorter, and the tool change time is shorter, and the speed of tool changing is more accelerated.
More than content is only the preferred embodiment of the utility model, for those of ordinary skill in the art, according to this reality
With novel thought, there will be changes, the content of the present specification should not be construed as in specific embodiments and applications
Limitation to the utility model.
Claims (9)
1. a kind of machining tool that can prevent tool changing from interfering, it is characterised in that:It is moved including lathe bed, transverse shifting component, longitudinal direction
Dynamic component, head, slides saddle, tool magazine, main shaft, tool magazine mounting bracket and multiple fixtures at column;
The transverse shifting component is set on the lathe bed, and the slip saddle is set on the transverse shifting component, institute
Transverse shifting component is stated for the slip saddle to be driven to move laterally, the longitudinal movement component is set to the slip bed
On saddle, the column is set on the longitudinal movement component, and the longitudinal movement component is longitudinal for the column to be driven to make
It is mobile;
The head is set to the column, and setting is there are two main shaft on the head, two main shaft longitudinal arrangements and spacing is set
It puts;Each tool magazine is set on the tool magazine mounting bracket, and the tool magazine mounting bracket is connected to the slip saddle, described vertical
On the left of column and right side is both provided with tool magazine, tool changing tool arm is both provided on the tool magazine, is changed for tool magazine and main shaft on head
Knife;
The tool magazine being set on the left of the column is left tool magazine, and it is right tool magazine to be set to the tool magazine on the right side of the column;The left side
Tool magazine and the right tool magazine are non-arranged side by side, and the left tool magazine is set to the lower-left rear of the column, the right tool magazine setting
In the right front of the column;And the sum of radius length of tool changing tool arm on left tool magazine and right knife is less than left tool magazine cutter shaft center
With the length between right tool magazine cutter shaft center;
Multiple fixtures are arranged side by side on the lathe bed, and the length direction of the fixture is set as laterally, and the fixture can
It is rotated around its center line.
2. machining tool according to claim 1, it is characterised in that:There are two fixtures for setting on the lathe bed;Front and rear two
It is disposed adjacent between two fixtures;
The fixture is included in turntable, tailstock, clamp bottom board, benchmark backing plate and clamp assembly;
The turntable and tailstock are set on the lathe bed, and the both ends of the clamp bottom board are respectively arranged at the turntable and tailstock
On, the clamp bottom board is driven to rotate by the turntable;
The benchmark backing plate is set on the clamp bottom board, and the clamp assembly is set on the clamp bottom board and in institute
The front and rear sides of benchmark backing plate are stated, the clamp assembly is used to be clamped the workpiece on benchmark backing plate.
3. machining tool according to claim 2, it is characterised in that:The clamp assembly includes front clamping cylinder and side
Face clamping cylinder;
The front clamping cylinder is fixed on the clamp bottom board, and the motion end of the front clamping cylinder is in the benchmark
The top of backing plate;
The clamping sides cylinder is fixed on the clamp bottom board, and the motion end of the clamping sides cylinder is directed at the benchmark
The side of backing plate.
4. machining tool according to claim 3, it is characterised in that:The front clamping cylinder is corner oil cylinder.
5. machining tool according to claim 2, it is characterised in that:The fixture further includes located lateral benchmark;It is described
Located lateral benchmark is set on the outside of the left end of the benchmark backing plate or on the outside of right end.
6. machining tool according to claim 1, it is characterised in that:The transverse shifting component is led including transverse shifting
Rail, rack, gear and cross motor;
The transverse shifting guide rail is set to the top of the lathe bed and laterally setting, and the slip saddle is set to the transverse direction
On moving guide rail;The rack is set to the top of the lathe bed and is similarly lateral setting, and the cross motor is set to institute
It states and slides on saddle, the output terminal of the cross motor is connected to the gear by speed reducer, and the cross motor is by subtracting
Fast machine drives the gear rotation, and the gear is driven with rack intermeshing.
7. machining tool according to claim 1, it is characterised in that:The longitudinal movement component includes longitudinal motor, silk
Bar, nut and longitudinal movement rail;
The longitudinal movement rail is set on the slip saddle, and the column is movably set in the longitudinal movement rail,
The longitudinal motor is set on the slip saddle, and the both ends of the screw are set on the slip saddle;The longitudinal direction
The output terminal of motor is connected to the screw, the screw is driven to rotate, the nut is set on the screw, with screw phase
Mutually cooperation transmission, the nut are connected to the column.
8. machining tool according to claim 1, it is characterised in that:Shred holding up plate is additionally provided on the tool magazine mounting bracket;
The shred holding up plate is connected to the slip saddle and bends towards the fixture.
9. machining tool according to claim 1, it is characterised in that:The tool magazine mounting bracket includes mounting base, connection
Plate, installation top plate and angle steel;
The mounting base is connected to the slip saddle, and one end of the connecting plate is connected to the mounting base, the company
The other end of fishplate bar is connected to the installation top plate, and the connecting plate is obliquely installed to machining tool outside, and the one of the angle steel
Plane is connected to the installation top plate, and the tool magazine is connected to another plane of the angle steel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721706560.4U CN207495077U (en) | 2017-12-11 | 2017-12-11 | A kind of machining tool that can prevent tool changing from interfering |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721706560.4U CN207495077U (en) | 2017-12-11 | 2017-12-11 | A kind of machining tool that can prevent tool changing from interfering |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207495077U true CN207495077U (en) | 2018-06-15 |
Family
ID=62509418
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721706560.4U Active CN207495077U (en) | 2017-12-11 | 2017-12-11 | A kind of machining tool that can prevent tool changing from interfering |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207495077U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112643107A (en) * | 2020-12-21 | 2021-04-13 | 江苏澳孚莱精密机械装备制造有限公司 | Horizontal milling machine equipment applied to preparation of aerospace part mould |
CN113412175A (en) * | 2019-02-11 | 2021-09-17 | 斗山机床株式会社 | Tool magazine of machine tool |
-
2017
- 2017-12-11 CN CN201721706560.4U patent/CN207495077U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113412175A (en) * | 2019-02-11 | 2021-09-17 | 斗山机床株式会社 | Tool magazine of machine tool |
CN113412175B (en) * | 2019-02-11 | 2023-11-03 | 株式会社迪恩机床 | Tool magazine of machine tool |
CN112643107A (en) * | 2020-12-21 | 2021-04-13 | 江苏澳孚莱精密机械装备制造有限公司 | Horizontal milling machine equipment applied to preparation of aerospace part mould |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN206717543U (en) | Twin shaft combined numerically controlled machine | |
CN101817158B (en) | Gantry vertical and horizontal numerically controlled grinder | |
CN205464494U (en) | Many spindle processing equipment | |
CN202782416U (en) | Rotating head three-workstage carving machine | |
CN102528503A (en) | Double-sided drilling fixture | |
CN106736630B (en) | Pentahedron processing machine | |
CN103029008B (en) | A kind of two-sided two dynamic post horizontal Machining centers and using method thereof | |
CN207495077U (en) | A kind of machining tool that can prevent tool changing from interfering | |
CN209831118U (en) | Double-spindle engraving and milling machine | |
CN207508782U (en) | A kind of numerical control machine tool high in machining efficiency | |
CN205147834U (en) | A but, rotatory mobile Workbench that is used for cylinder reboring machine of two boring cutter heads | |
CN206998262U (en) | A kind of numerical control drilling-milling all-in-one | |
CN105234749A (en) | Twin-spindle numerical-control device used for composite sliding block machining | |
CN202984720U (en) | Multi-shaft double-side-machining drilling machine | |
CN207787709U (en) | Has the comb formula lathe of multiple processing efficiency | |
CN201179604Y (en) | Multi-primary shaft five-shaft vertical processing center | |
CN103008714A (en) | Drilling machine device with multiple-shaft and double-side processing function | |
CN202985263U (en) | Multi-station computerized numerical control machining center | |
CN206335401U (en) | A kind of main shaft fixed seat of the quick loose knife of the band of high-speed machining center lathe | |
CN212169124U (en) | Overhead efficient five-axis numerical control milling machine | |
CN207495078U (en) | It is a kind of can simultaneously Multi-axis Machining numerical control machining center | |
CN204486877U (en) | The quick lathe of multistation | |
CN203077015U (en) | Double-faced double-moving-column horizontal machining center | |
CN209407910U (en) | A kind of multicutter both ends composite processing machine tool | |
CN104736280B (en) | The internal diameter turning adnexa of lathe |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP03 | Change of name, title or address |
Address after: 528137 block 1 and 3, No. 9, Lexin Avenue, Leping Town, Sanshui District, Foshan City, Guangdong Province Patentee after: Guangdong Pradi Technology Co.,Ltd. Address before: 528137 workshop a, No.70, area C, Sanshui Industrial Park, Foshan City, Guangdong Province Patentee before: FOSHAN PRATIC CNC SCIENCE & TECHNOLOGY Co.,Ltd. |
|
CP03 | Change of name, title or address |