CN209189939U - A kind of servo double-pole processing structure of special purpose machine tool that processing brake disc - Google Patents
A kind of servo double-pole processing structure of special purpose machine tool that processing brake disc Download PDFInfo
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- CN209189939U CN209189939U CN201822013537.8U CN201822013537U CN209189939U CN 209189939 U CN209189939 U CN 209189939U CN 201822013537 U CN201822013537 U CN 201822013537U CN 209189939 U CN209189939 U CN 209189939U
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- slide plate
- cutter
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- servo
- feed system
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Abstract
The utility model relates to a kind of servo double-poles of special purpose machine tool for processing brake disc to process structure, including pedestal, the main shaft equipped with fixture is fixedly connected in pedestal operative end surface, base side face is connected with column, Z axis feed system is slidably connected on column, Z axis feed system is responsible for the vertical feed of big slide plate, X-axis feed system is slidably connected on big slide plate, X-axis feed system is responsible for the left and right feeding of small slide plate, servo saddle is connected on the right side of small slide plate, small slide plate left side elevational is connected with auxiliary axis mechanism, the side of servo saddle towards pedestal upper surface is connected with folder knife tool apron, clamping has cutter I on folder knife tool apron, clamping is connected with cutter II on auxiliary axis mechanism, cutter I and cutter II operative end surface are in same level.Servo motor and asessory shaft lead screw direct connection, which are realized, to be driven, double-pole system simultaneous processing brake disc upper lower burrs face braking surface is constituted with knife rest, X-axis feed system controls servo saddle and auxiliary axis mechanism is mobile simultaneously, processes while realizing double-pole to brake disc upper lower burrs face braking surface.
Description
Technical field
The utility model relates to a kind of processing structure, especially a kind of servo double-pole for the special purpose machine tool for processing brake disc adds
Work structure belongs to machine tooling production field.
Background technique
Since the brake region braking surface of brake disc workpiece is mostly thin-walled parts disk, original list is used in process
Knife processing method is easy to cause to tremble to thin-walled position, and causes surface roughness, flatness and disk uniform thickness bad, occurs
Problems, which have to increase, repairs or grinds worker employed in a plant nursery's sequence, seriously constrains product quality and production efficiency.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of servo double-poles of special purpose machine tool for processing brake disc to add
Work structure, which is realized while processing axis by digital control system and brake disc disk is braked in timesharing feeding mode, realization
It is processed while the position of face, guarantee machine adds precision and improves efficiency.
In order to solve the above problem, the specific technical solution of the utility model is as follows: a kind of special purpose machine tool for processing brake disc
Servo double-pole process structure, including pedestal is fixedly connected with the main shaft equipped with fixture, base side face in pedestal operative end surface
It is connected with column, Z axis feed system is slidably connected on column, Z axis feed system is responsible for the vertical feed of big slide plate, big slide plate
On slidably connect X-axis feed system, X-axis feed system is responsible for the left and right feeding of small slide plate, passes through sliding rail sliding on small slide plate
It is connected with servo saddle, small slide plate left side elevational is connected with auxiliary axis mechanism, and the side of servo saddle towards pedestal upper surface connects
It is connected to folder knife tool apron, pressing from both sides clamping on knife tool apron has cutter I, and clamping on axis mechanism is assisted to be connected with cutter II, cutter I and cutter II
Operative end surface is in same level.By in X-axis feed system small slide plate side coil set equipped with auxiliary axis mechanism, by servo electricity
Machine and asessory shaft lead screw direct connection, which are realized, to be driven, and constitutes double-pole system simultaneous processing brake disc upper lower burrs face braking surface with knife rest.On
When the braking surface simultaneous processing of lower wall face, X, the left and right of Z axis feed system control servo saddle and lifting moving complete knife rest cutter
With lower wall face braking surface to knife, the lifting moving of asessory shaft feed system control auxiliary axis mechanism, complete asessory shaft cutter with
Upper disk surface braking surface to knife, to reach the requirement of double-pole processing brake disc thickness size.X-axis feed system controls servo saddle
And auxiliary axis mechanism is mobile simultaneously, processes while realizing double-pole to brake disc upper lower burrs face braking surface.
The structure of the auxiliary axis mechanism are as follows: pedestal is fixedly connected with small slide plate, and pedestal other end slidably connects
Auxiliary slide, auxiliary slide lower section have been bolted to connection auxiliary knife clamp, servo motor, servo are connected on auxiliary slide
Motor is connect by ball-screw with auxiliary slide.
The base end face is equipped with spherical guide, and auxiliary slide is slidably connected with spherical guide.
Adjusting pad is equipped at the auxiliary knife clamp clamping cutter II.
The utility model bring has the beneficial effect that double-pole when this special purpose machine tool can be such that brake disc processes while cutting makes
It obtains cutting deformation power caused by the braking surface of upper lower burrs face to cancel out each other, machining accuracy can be greatly improved.Auxiliary axis mechanism is watched
It takes motor to control by system, realizes and the brake disc of different-thickness is processed, and can be realized the abrasion of cutter work in-process
Carry out cutter compensation.When for the processing of thin-walled disk, double-pole simultaneous processing can play the purpose for inhibiting to tremble.By once filling
It is processed while folder is to upper and lower disk, the geometric tolerance and dimensional accuracy of two brake disks can not only be improved, and process effect
Rate significantly improves.
Detailed description of the invention
Fig. 1 is the structural schematic diagram for processing the servo double-pole processing structure of the special purpose machine tool of brake disc.
Fig. 2 is the structural schematic diagram for assisting axis mechanism.
Fig. 3 is processing brake disc structural schematic diagram.
Specific embodiment
As depicted in figs. 1 and 2, a kind of servo double-pole of special purpose machine tool that processing brake disc processes structure, including pedestal 1,
The main shaft 2 equipped with fixture 3 is fixedly connected in 1 operative end surface of pedestal, 1 side end face of pedestal is connected with column 5, slides on column 5
Be connected with Z axis feed system 6, Z axis feed system 6 is responsible for the vertical feed of big slide plate 7, slidably connected on big slide plate 7 X-axis into
To system 8, X-axis feed system 8 is responsible for the left and right feeding of small slide plate 9, is connected with servo saddle 10, small slide plate 9 on the right side of small slide plate 9
Left side elevational is connected with auxiliary axis mechanism 4, and the side of servo saddle 10 towards pedestal upper surface is connected with folder knife tool apron 11, presss from both sides knife
Clamping has cutter I21 on tool apron 11, and clamping on axis mechanism 4 is assisted to be connected with cutter II20, cutter I 21 and cutter II20 work
End face is in same level.
The structure of the auxiliary axis mechanism 4 are as follows: pedestal 12 is fixedly connected with small slide plate 9, the sliding of 12 other end of pedestal
It is connected with auxiliary slide 15, auxiliary knife clamp 16 has been bolted to connection below auxiliary slide 15, has been connected on auxiliary slide 15
There is servo motor 14, servo motor 14 is connect by ball-screw 17 with auxiliary slide 15.
12 end face of pedestal is equipped with spherical guide 13, and auxiliary slide 15 is slidably connected with spherical guide 13.
The auxiliary knife clamp 16, which clamps, is equipped with adjusting pad 18 at cutter II20.
Auxiliary axis mechanism 4 and servo saddle 10 are installed on jointly on small slide plate 9, and small slide plate 9 is installed on big slide plate 7 and passes through
X-axis feed system 8 makes upper movement along the x axis, realizes the purpose laterally processed.Big slide plate 7 is installed on column 5 and passes through Z axis
The component that feed system 6 installs big slide plate 7 and its top is moved along Z-direction jointly.
Z axis feed system 6, X-axis feed system 8 and auxiliary axis mechanism 4 are respectively mounted servo motor and are driven, and pass through lathe
Digital control system control, servo motor built-in encoder feedback, real-time detection position and speed.
Assisting axis mechanism 4 includes pedestal 12, spherical guide 13, servo motor 14, auxiliary slide 15, auxiliary knife clamp 16, rolling
Ballscrew 17 and adjusting pad 18.Controlling servo motor 14 by the digital control system of lathe drives the dragging auxiliary of direct connection lead screw 17 to slide
Plate 15 is gone up and down, and 16 handle of auxiliary knife clamp is together in 15 bottom of auxiliary slide, to reach the size adjusting for being suitble to different disk thickness.It adjusts
Whole pad 18 is for adjusting auxiliary knife clamp 16 datum level of conjunction cutter to 11 unification of folder knife tool apron with servo saddle 10 conjunction
In section, blade generates the balance and counteracting of cutting force up and down when being more accurately conducive to cutting.
As shown in figure 3, Z axis feed system 6 and X-axis feed system 8, which control servo saddle 10, is moved to 19 disk of brake disc
Knife rest cutter 21 is completed with lower disk to knife in the target position of lower section, and system controls servo motor 14 and drives direct connection lead screw 17,
Make the lifting of auxiliary knife clamp 16 to target size position above brake disc 19 disk, complete aid tool 20 and upper disk surface to knife,
System controls X-axis feed system 8 and drags 9 transverse shifting of small slide plate, cuts while completion to about 19 disk of brake disc.Work as knife
When tool I21 is worn, Z axis feed system 6 can be controlled by system and carries out cutter compensation, while should carry out phase to cutter II20
The cutter compensation answered, to guarantee the change in location after Z axis is mobile.When cutter II20 is worn, it is only necessary to for servo electricity
Machine 14 inputs cutter compensation instruction.After completing processing, System Programming control servo motor 14 drives direct connection lead screw 17 first,
Rise auxiliary knife clamp 16, Z axis feed system 6 drags servo saddle 10 and declines, and X-axis feed system 8 drags the drive of small slide plate 9 and watches
It takes knife rest 10 and auxiliary 4 transverse shifting of axis mechanism completes withdrawing.
Above-described is only the preferred embodiment of the utility model.It should be pointed out that for the ordinary skill people of this field
For member, without departing from the principle of this utility model, several variations and modifications can also be made, also should be regarded as belonging to this
The protection scope of utility model.
Claims (4)
1. a kind of servo double-pole for the special purpose machine tool for processing brake disc processes structure, including pedestal (1), pedestal (1) operative end surface
On be fixedly connected with the main shaft (2) equipped with fixture (3), pedestal (1) side end face is connected with column (5), and column is slidably connected on (5)
There are Z axis feed system (6) and X-axis feed system (8), it is characterised in that: conjunction is connected with big slide plate by Z axis feed system (6)
(7), X-axis feed system (8) is connected with conjunction small slide plate (9), slidably connects servo saddle by sliding rail on small slide plate (9)
(10), small slide plate (9) side end face clamping be connected with auxiliary axis mechanism (4), servo saddle (10) towards pedestal (1) upper surface one
Conjunction is connected with folder knife tool apron (11) by side, and clamping has cutter I(21 on folder knife tool apron (11)), assist clamping on axis mechanism (4) to connect
It is connected to cutter II(20), cutter I(21) and cutter II(20) operative end surface is in same level.
2. the servo double-pole of the special purpose machine tool of processing brake disc processes structure as described in claim 1, it is characterised in that: described
Auxiliary axis mechanism (4) structure are as follows: pedestal (12) is fixedly connected with small slide plate (9), and pedestal (12) other end is slidably connected
Have auxiliary slide (15), has been bolted to connection auxiliary knife clamp (16) below auxiliary slide (15), on auxiliary slide (15)
It is connected with servo motor (14), servo motor (14) is connect by ball-screw (17) with auxiliary slide (15).
3. the servo double-pole of the special purpose machine tool of processing brake disc processes structure as claimed in claim 2, it is characterised in that: described
Pedestal (12) end face be equipped with spherical guide (13), auxiliary slide (15) is slidably connected with spherical guide (13).
4. the servo double-pole of the special purpose machine tool of processing brake disc processes structure as claimed in claim 2, it is characterised in that: described
Auxiliary knife clamp (16) clamp cutter II(20) at be equipped with adjusting pad (18).
Priority Applications (1)
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CN201822013537.8U CN209189939U (en) | 2018-12-03 | 2018-12-03 | A kind of servo double-pole processing structure of special purpose machine tool that processing brake disc |
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CN201822013537.8U CN209189939U (en) | 2018-12-03 | 2018-12-03 | A kind of servo double-pole processing structure of special purpose machine tool that processing brake disc |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112024994A (en) * | 2020-09-05 | 2020-12-04 | 刘婷婷 | Automobile brake disc machining system and method |
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2018
- 2018-12-03 CN CN201822013537.8U patent/CN209189939U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112024994A (en) * | 2020-09-05 | 2020-12-04 | 刘婷婷 | Automobile brake disc machining system and method |
CN112024994B (en) * | 2020-09-05 | 2021-10-26 | 山东信昌环保科技有限公司 | Automobile brake disc machining system and method |
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