CN209036144U - A kind of full servo intelligent numerical control horizontal machining center - Google Patents
A kind of full servo intelligent numerical control horizontal machining center Download PDFInfo
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- CN209036144U CN209036144U CN201821949605.5U CN201821949605U CN209036144U CN 209036144 U CN209036144 U CN 209036144U CN 201821949605 U CN201821949605 U CN 201821949605U CN 209036144 U CN209036144 U CN 209036144U
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- 238000009434 installation Methods 0.000 claims 1
- 238000003754 machining Methods 0.000 abstract description 10
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Abstract
The utility model discloses a kind of full servo intelligent numerical control horizontal machining centers, including six axis spindle boxes, lathe base and column, main spindle box body is provided on the six axis spindle box, and six groups of main shafts are installed in main spindle box body, six axis spindle boxes are installed on the right side of the upper surface of the lathe base, and it is provided with second straight line guide rail on the left of lathe base upper surface, column is installed above the first straight line guide rail, and third servo motor is installed on column.The full servo intelligent numerical control horizontal machining center, overall structure setting is more reasonable, and complete machine uses full servo, systematization control, more intelligent, debugging machine is simple, everything need to only be realized by code programming, number is simply changed in program can hold the change of time size, this equipment also uses precision linear guide rail, ball screw to be driven, and machining accuracy is high, dimensionally stable, working efficiency is improved, optimization production product quality improves producer's productivity effect.
Description
Technical field
The utility model relates to numerical control horizontal machining center technical field, specially a kind of full servo intelligent numerical control horizontal
Machining center.
Background technique
Technology in one machining equipment, have many advantages, such as high speed, high-precision, high efficiency, have a wide range of application, by
Step becomes the main flow direction of modern machine development, and is widely used in machine-building, but the technology of horizontal Machining centers at present
Not perfect enough, some equipment such as the water heating bathroom industry biaxial plane of the prior art, semi-automatic hydraulic special purpose machine tool, a worker is only
One people of energy guards a machine, and entire spare time of the work hours worker without one, and needs operation
High concentration, worker's work load is overweight, and during actual processing, different technique processing needs to use a variety of cutters, fills
Cutter is difficult, and one procedure of every processing requires tool changing tool, needs to wait for tool change time, and long processing time, working efficiency is low, and
And processing dimension is unstable, precision is difficult to ensure, production product quality is difficult to guarantee.
In order to solve defect and deficiency present in the numerical control horizontal machining center mentioned above come out, it is badly in need of improving numerical control
The technology of horizontal Machining centers, systematization control, more intelligent, debugging machine is simple, and everything need to only be compiled by code
Journey realizes that number is simply changed in program can hold the change of time size, and precision linear guide rail, ball screw carry out
Transmission, machining accuracy is high, dimensionally stable, full SERVO CONTROL, saves labour, and Alternative processing, cutter switching is fast, improves work
Efficiency, optimization production product quality, improves producer's productivity effect, to provide in a kind of processing of full servo intelligent numerical control horizontal
The heart.
Utility model content
The technical issues of the utility model solves is to overcome the different technique processing of the prior art, needs to use a variety of
Cutter, dress cutter is difficult, and one procedure of every processing requires tool changing tool, needs to wait for tool change time, long processing time, Gong Rengong
Over-burden for work, and working efficiency is low, and processing dimension is unstable, and precision is difficult to ensure, what production product quality was difficult to guarantee lacks
It falls into, a kind of full servo intelligent numerical control horizontal machining center is provided.A kind of full servo intelligent numerical control horizontal machining center
It is controlled with systematization, more intelligent, debugging machine is simple, and everything need to only be realized by code programming, in program
On simply change number and can hold the change of time size, precision linear guide rail, ball screw are driven, machining accuracy
Height, dimensionally stable, full SERVO CONTROL save labour, and Alternative processing, cutter switching is fast, improve working efficiency, optimization production
The features such as product quality, raising producer's productivity effect.
To achieve the above object, the utility model provides the following technical solutions: a kind of full servo intelligent numerical control horizontal adds
Work center, including six axis spindle boxes, lathe base and column, the leading flank of the six axis spindle box is provided with guide rod, described
It is provided with main spindle box body on six axis spindle boxes, and six groups of main shafts are installed in main spindle box body, every group of main shaft, which matches, to be set
It is equipped with one group of propelling cylinder, and every group of front-end of spindle is matched therewith the front end of the propelling cylinder of setting and is equipped with one group of gear
Circle, the front end end of the main shaft are bolted with knife handle, and the rear end end of main shaft is mounted on driving wheel, on the driving wheel
It is provided with synchronous belt, the top of the six axis spindle box is equipped with a spindle servo electric machine, and is arranged on spindle servo electric machine
There is driving wheel, six axis spindle boxes is installed, and be provided on the right side of the upper surface of the lathe base on the left of lathe base upper surface
Second straight line guide rail, the centre of the second straight line guide rail is equipped with the second ball screw, and the front end of the second ball screw is set
It is equipped with first servo motor, saddle is installed above the second straight line guide rail, and be provided with first straight line guide rail on saddle,
The centre of the first straight line guide rail is equipped with ball screw, and the front end of ball screw is provided with the second servo motor, described
Column is installed above first straight line guide rail, and third servo motor is installed on column, the side of the column is provided with
Twice third linear guide, and slide plate is provided in twice third linear guide.
Preferably, the subsequent left three groups of driving wheels of the six axis spindle box, intermediate three groups of driving wheels and three groups of the right biography
Driving wheel respectively constituted respectively with synchronous belt can drive mechanism, and the transmission direction of three groups of drive mechanisms is consistent.
Preferably, second servo motor, first servo motor and third servo motor respectively constitute X-axis, Y-axis and Z
The feed shaft of three axial directions of axis.
Preferably, the lower end surface of the saddle is provided with the sliding guide sleeve matched with lower section second straight line guide rail, and saddle
Seat is Z axis slidable structure.
Preferably, the lower end surface of the column is provided with the sliding guide sleeve that first straight line guide rail matches on saddle, and
Column is X-axis slidable structure.
Preferably, the slide plate leading flank is provided with to match with the twice third linear guide on column side and be provided with
Sliding guide sleeve, and slide plate is Y-axis slidable structure.
Preferably, the first straight line guide rail is led with column, saddle and second straight line guide rail and slide plate and third straight line
Rail is slidably composite structure, and first straight line guide rail and column, saddle and second straight line guide rail and slide plate and third are straight
Line guide rail is detachable.
Compared with prior art, the utility model has the beneficial effects that
1, six groups of main shafts of the utility model match setting with six groups of propelling cylinders respectively by retaining ring one by one, need to use
The cutter of which group front-end of spindle, which just passes through, pushes subsequent propelling cylinder, and cutter release is carried out using avoiding between adjacent cutter
Interference problem when processing, six groups of main shafts only need to use a spindle servo electric machine, while six roots of sensation main shaft can be used together
One servo motor transmission reduces energy waste and space hold etc., and Alternative processing, cutter switching is fast, overall structure operation
More integrated, operation change is more flexible, and saving is more artificial, can reach a people and sees more machines.
2, the full servo intelligent numerical control horizontal machining center, overall structure setting is more reasonable, and complete machine uses full servo,
Systematization control, more intelligent, debugging machine is simple, and everything need to only be realized by code programming, simple in program
Single change number can hold the change of time size, this equipment also uses precision linear guide rail, ball screw to be driven, adds
Work precision is high, dimensionally stable, full SERVO CONTROL, saves labour, improves working efficiency, and optimization production product quality improves factory
Family's productivity effect.
Detailed description of the invention
Fig. 1 is the schematic perspective view of the utility model structure;
Fig. 2 is six axis spindle box left view schematic diagrams of the utility model structure;
Fig. 3 is six axis spindle box right side vieies of the utility model structure;
Fig. 4 is three servo feed axle construction schematic diagrames of X/Y/Z axis of the utility model structure.
Figure label: 1, six axis spindle box, 100, main spindle box body, 101, guide rod, 102, synchronous belt, 103, propulsion oil
Cylinder, 104, retaining ring, 105, main shaft, 106, knife handle, 107, spindle servo electric machine, 108, driving wheel, 2, lathe base, 3, ball wire
Bar, 4, first straight line guide rail, 5, first servo motor, 6, saddle, the 7, second servo motor, 8, column, 9, third servo motor,
10, slide plate, the 11, second ball screw, 12, second straight line guide rail, 13, third linear guide.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: in a kind of processing of full servo intelligent numerical control horizontal
The heart, including six axis spindle boxes 1, lathe base 2 and column 8, the leading flank of six axis spindle boxes 1 are provided with guide rod 101, six axis masters
It is provided with main spindle box body 100 on axle box 1, and six groups of main shafts 105 are installed in main spindle box body 100, every group of main shaft 105 matches
It is provided with one group of propelling cylinder 103, and the front end of every group of 105 front end of main shaft propelling cylinder 103 for being matched therewith setting covers
It is equipped with one group of retaining ring 104, the front end end of main shaft 105 is bolted with knife handle 106, and the rear end end of main shaft 105 is mounted on
Driving wheel 108 is provided with synchronous belt 102, the subsequent left three groups of driving wheels 108 of six axis spindle box 1, centre three on driving wheel 108
Group driving wheel 108 and three groups of the right driving wheel 108 respectively with synchronous belt 102 together can drive mechanism, and three groups of drive mechanisms
Transmission direction it is consistent;
The top of six axis spindle boxes 1 is equipped with a spindle servo electric machine 107, and is provided on spindle servo electric machine 107
Driving wheel, the upper surface right side of lathe base 2 is equipped with six axis spindle boxes 1, and is provided with second on the left of 2 upper surface of lathe base
Linear guide 12, the centre of second straight line guide rail 12 is equipped with the second ball screw 11, and the front end of the second ball screw 11 is set
It is equipped with first servo motor 5, the top of second straight line guide rail 12 is equipped with saddle 6, and the lower end surface of saddle 6 is provided with and lower section
The sliding guide sleeve that two linear guides 12 match, and saddle 6 is Z axis slidable structure;
First straight line guide rail 4 is provided on saddle 6, the centre of first straight line guide rail 4 is equipped with ball screw 3, and ball
The front end of screw rod 3 is provided with the second servo motor 7, and the top of first straight line guide rail 4 is equipped with column 8, and the lower end surface of column 8 is set
Be equipped with the sliding guide sleeve that first straight line guide rail 4 matches on saddle 6, and column 8 is X-axis slidable structure, and is pacified on column 8
Equipped with third servo motor 9, the second servo motor 7, first servo motor 5 and third servo motor 9 respectively constitute X-axis, Y-axis and
The feed shaft of three axial directions of Z axis, and the structures such as the second servo motor 7, first servo motor 5 and third servo motor 9 group together
At X-axis, the horizontal Machining centers of three servo feed axis of Y-axis and Z axis;
The side of column 8 is provided with twice third linear guide 13, and is provided with slide plate in twice third linear guide 13
10,10 leading flank of slide plate, which is provided with to match with the twice third linear guide 13 on 8 side of column, is provided with sliding guide sleeve, and
Slide plate 10 be Y-axis slidable structure, first straight line guide rail 4 and column 8, saddle 6 and second straight line guide rail 12 and slide plate 10 with
Third linear guide 13 is slidably composite structure, and first straight line guide rail 4 and column 8, saddle 6 and second straight line guide rail 12
And slide plate 10 and third linear guide 13 are detachable.
Working principle: when using the full servo intelligent numerical control horizontal machining center, the second servo motor 7, first are watched
It takes motor 5 and third servo motor 9 respectively constitutes the feed shaft of three X-axis, Y-axis and Z axis axial directions, the second servo motor 7, first
The structures such as servo motor 5 and third servo motor 9 form together X-axis, three servo feed axis of Y-axis and Z axis horizontal processing in
The heart slides in third linear guide 13 along Y-axis using slide plate 10 later, using column 8 on first straight line guide rail 4 edge
X-axis sliding, slided on second straight line guide rail 12 along Z axis using saddle 6, controlled using system, can reach three-shaft linkage
The machining functions such as bored, attacked, integrated operation more system, flexibly, polyaxial progress, everything need to only be compiled by code
Journey realizes, number is simply changed in program can hold the change of time size, and complete machine is first straight using precision linear
Line guide rail 4, second straight line guide rail 12 and third linear guide 13 and synchronous belt 102 are driven, and machining accuracy is high, and size is steady
Fixed, the six axis spindle boxes 1 that this equipment is installed use six groups of main shafts 105, install needed for multiple groups technique on six groups of main shafts 105
The different types of cutter wanted, spindle box are designed using six axis, can fill six different cutters, and connection knife handle can fill different type knife
Tool, every main shaft carry out being switched fast cutter using oil pressure propulsion device, are rotated thereon by spindle servo electric machine 107 later
Driving wheel drives two groups of driving wheels 108 of underface to start turning, this two groups of intermediate transmission by the effect of synchronous belt 102
Wheel 108, which has, constitutes drive mechanism with two groups of driving wheels 108 on two groups of driving wheels 108 on each left side, the right respectively, and passes through synchronization
Transmission effect with 102 drives six groups of main shafts 105 to start turning, and six groups of main shafts 105 are pushed away with six groups respectively by retaining ring 104
Oil inlet cylinder 103 matches setting one by one, and the cutter for needing to use which group 105 front end of main shaft, which just passes through, pushes subsequent propelling cylinder
103, cutter release is carried out using avoiding interference problem when processing between adjacent cutter, six groups of main shafts 105 only need to use one
Platform spindle servo electric machine 107, while same servo motor transmission can be used in six roots of sensation main shaft, reduces energy waste and space
Occupy etc., Alternative processing, cutter switching is fast, and overall structure operation is more integrated, and operation change is more flexible, saves more
Manually, it can reach a people and see more machines, here it is the working principles of the full servo intelligent numerical control horizontal machining center.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (7)
1. a kind of full servo intelligent numerical control horizontal machining center, including six axis spindle boxes (1), lathe base (2) and column
(8), it is characterised in that: the leading flank of the six axis spindle box (1) is provided with guide rod (101), on the six axis spindle box (1)
It is provided with main spindle box body (100), and six groups of main shafts (105) is installed in main spindle box body (100), every group of main shaft (105) is equal
It matches and is provided with one group of propelling cylinder (103), and every group of main shaft (105) front end is matched therewith the propelling cylinder of setting
(103) front end is equipped with one group of retaining ring (104), and the front end end of the main shaft (105) is bolted with knife handle (106), and
The rear end end of main shaft (105) is mounted on driving wheel (108), is provided with synchronous belt (102), institute on the driving wheel (108)
The top for stating six axis spindle boxes (1) is equipped with a spindle servo electric machine (107), and is provided on spindle servo electric machine (107)
The upper surface right side of driving wheel, the lathe base (2) is equipped with six axis spindle boxes (1), and on the left of lathe base (2) upper surface
It being provided with second straight line guide rail (12), the centre of the second straight line guide rail (12) is equipped with the second ball screw (11), and the
The front end of two ball screws (11) is provided with first servo motor (5), is equipped with saddle above the second straight line guide rail (12)
Seat (6), and first straight line guide rail (4) are provided on saddle (6), the centre of the first straight line guide rail (4) is equipped with ball wire
Bar (3), and the front end of ball screw (3) is provided with the second servo motor (7), the top installation of the first straight line guide rail (4)
Have column (8), and third servo motor (9) are installed on column (8), it is straight that the side of the column (8) is provided with twice third
Line guide rail (13), and slide plate (10) are provided in twice third linear guide (13).
2. a kind of full servo intelligent numerical control horizontal machining center according to claim 1, it is characterised in that: six axis
The subsequent left three groups of driving wheels (108) of spindle box (1), intermediate three groups of driving wheels (108) and three groups of the right driving wheel (108) point
Do not respectively constituted with synchronous belt (102) can drive mechanism, and the transmission direction of three groups of drive mechanisms is consistent.
3. a kind of full servo intelligent numerical control horizontal machining center according to claim 1, it is characterised in that: described second
Servo motor (7), first servo motor (5) and third servo motor (9) respectively constitute X-axis, three axial directions of Y-axis and Z axis into
To axis.
4. a kind of full servo intelligent numerical control horizontal machining center according to claim 1, it is characterised in that: the saddle
(6) lower end surface is provided with the sliding guide sleeve matched with lower section second straight line guide rail (12), and saddle (6) be Z axis slidably
Structure.
5. a kind of full servo intelligent numerical control horizontal machining center according to claim 1, it is characterised in that: the column
(8) lower end surface is provided with the sliding guide sleeve that first straight line guide rail (4) matches on saddle (6), and column (8) be X-axis can
Slide construction.
6. a kind of full servo intelligent numerical control horizontal machining center according to claim 1, it is characterised in that: the slide plate
(10) leading flank, which is provided with to match with the twice third linear guide (13) on column (8) side, is provided with sliding guide sleeve, and
Slide plate (10) is Y-axis slidable structure.
7. a kind of full servo intelligent numerical control horizontal machining center according to claim 1, it is characterised in that: described first
Linear guide (4) and column (8), saddle (6) and second straight line guide rail (12) and slide plate (10) and third linear guide (13)
It is slidably composite structure, and first straight line guide rail (4) and column (8), saddle (6) and second straight line guide rail (12) and cunning
Plate (10) and third linear guide (13) are detachable.
Priority Applications (1)
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CN201821949605.5U CN209036144U (en) | 2018-11-26 | 2018-11-26 | A kind of full servo intelligent numerical control horizontal machining center |
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Application Number | Priority Date | Filing Date | Title |
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CN201821949605.5U CN209036144U (en) | 2018-11-26 | 2018-11-26 | A kind of full servo intelligent numerical control horizontal machining center |
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CN209036144U true CN209036144U (en) | 2019-06-28 |
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CN201821949605.5U Expired - Fee Related CN209036144U (en) | 2018-11-26 | 2018-11-26 | A kind of full servo intelligent numerical control horizontal machining center |
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CN (1) | CN209036144U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109202541A (en) * | 2018-11-26 | 2019-01-15 | 福建省鈊美机械科技有限公司 | A kind of full servo intelligent numerical control horizontal machining center |
CN110524296A (en) * | 2019-09-29 | 2019-12-03 | 泉州安肯自动化机械有限公司 | A kind of Intelligent CNC center |
-
2018
- 2018-11-26 CN CN201821949605.5U patent/CN209036144U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109202541A (en) * | 2018-11-26 | 2019-01-15 | 福建省鈊美机械科技有限公司 | A kind of full servo intelligent numerical control horizontal machining center |
CN110524296A (en) * | 2019-09-29 | 2019-12-03 | 泉州安肯自动化机械有限公司 | A kind of Intelligent CNC center |
CN110524296B (en) * | 2019-09-29 | 2024-02-27 | 泉州安肯自动化机械有限公司 | Intelligent numerical control machining center |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190628 |