CN208556042U - Cubic pressure machining large-scale precision numerical control borer - Google Patents

Cubic pressure machining large-scale precision numerical control borer Download PDF

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Publication number
CN208556042U
CN208556042U CN201821291800.3U CN201821291800U CN208556042U CN 208556042 U CN208556042 U CN 208556042U CN 201821291800 U CN201821291800 U CN 201821291800U CN 208556042 U CN208556042 U CN 208556042U
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China
Prior art keywords
numerical control
motor
workbench
firm banking
sliding slot
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CN201821291800.3U
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Inventor
马建国
王晓刚
毛振
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HENAN BOTAISHENG SHALA MACHINERY Co Ltd
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HENAN BOTAISHENG SHALA MACHINERY Co Ltd
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Abstract

The utility model relates to large-scale precision numerical control machine tool technique fields, specifically cubic pressure machining large-scale precision numerical control borer, including lathe, sliding slot is transversely provided on lathe, it is slidably connected in sliding slot equipped with sliding seat, one end of sliding slot is equipped with first motor, and the other end is equipped with workbench;Rotation connection is equipped with screw rod in sliding slot, and screw rod is connected with the output shaft of first motor, and the lower end of sliding seat is equipped with flange nut, flange nut be set to sliding slot it is interior and be arranged on screw rod;Sliding seat is equipped with the second motor, is connected with boring cutter on the output shaft of the second motor;Limit plate is vertically equipped on workbench, limit plate is equipped with limit hole, and boring cutter is passed through out of limit hole;Numerical control device is equipped in lathe, numerical control device is connect with first motor and the second motor signal;To solve the mobile inconvenience of current boring machine boring cutter, and it is unstable for the fixation for the cubic hinge press component processed on boring machine, thus the problem of causing the precision of processing not high and the low efficiency of processing.

Description

Cubic pressure machining large-scale precision numerical control borer
Technical field
The utility model relates to large-scale precision numerical control machine tool technique field, large-scale precision is used in specifically cubic pressure machining Numerical control borer.
Background technique
Boring machine is a kind of lathe for carrying out boring to the existing pre-manufactured hole of workpiece with boring cutter, is mainly used for machining high-precision hole Or the finishing in multiple holes is completed in primary positioning, can additionally be engaged in the processing that other related machined surfaces are finished with hole.
In the process of cubic hinge press, it can usually use boring machine device to hole and be finished, but current boring machine There is also the problems of the mobile inconvenience of boring cutter, and are not also for the fixation for the cubic hinge press component processed on boring machine It is very stable, it will make the precision of processing not high in this way and process inefficient.
Utility model content
The purpose of this utility model is to provide cubic pressure machining large-scale precision numerical control borers, to solve current boring The mobile inconvenience of bed boring cutter, and it is unstable for the fixation for the cubic hinge press component processed on boring machine, to cause The precision of processing it is not high and processing low efficiency the problem of.
In order to solve the above technical problems, the utility model uses following technical scheme:
A kind of cubic pressure machining large-scale precision numerical control borer, including lathe are transversely provided with sliding slot on the lathe, It is slidably connected in the sliding slot equipped with sliding seat, one end of the sliding slot is equipped with first motor, and the other end is equipped with workbench;
Rotation connection is equipped with screw rod in the sliding slot, and the screw rod is connected with the output shaft of first motor, the sliding seat Lower end be equipped with flange nut, the flange nut is set in sliding slot and is sheathed on screw rod;
The sliding seat is equipped with the second motor, is connected with boring cutter on the output shaft of second motor;
Limit plate is vertically equipped on the workbench, the limit plate is equipped with limit hole, and the boring cutter is out of limit hole It passes through;
Numerical control device is equipped in the lathe, the numerical control device is connect with first motor and the second motor signal.
Preferably, further technical solution is, one end of the lathe is equipped with firm banking, and the firm banking is in Cylindrical shape, the workbench rotation connection are set in firm banking;
More than two balls are radially provided with along the workbench outer wall, along being radially provided with for the firm banking inner wall Ball orbit, the ball, which is slidably connected, to be set in ball orbit.
Further technical solution is that the edge rotation connection of the workbench is equipped with fixture block, and the fixture block is in " L " The edge of font, including integrally formed transverse part and vertical part, one end of the transverse part and workbench is rotatablely connected, the other end with The upper end of vertical part is connected;
The upper end of the firm banking outer wall is vertically equipped with card slot, there are two the notch of the card slot is set, one of slot Mouth is located on the outer wall of firm banking, and other side notch is located at the upside of firm banking, and after rotation, vertical part is set the fixture block It is placed in card slot;
The card slot is equipped with more than two radially uniform distributions along firm banking outer wall.
Further technical solution is that the sliding seat is equipped with the first accommodating groove, the notch of first accommodating groove It is set to the upside of sliding seat, is equipped with lifting platform in first accommodating groove, the upper end of the lifting platform is transversely provided with fixed plate, Second motor is set to one end of fixed plate;
The other end of the fixed plate is vertically equipped with support rod, and the upper end of the support rod is equipped with bearing, and the boring cutter is solid Due in bearing;
The second accommodating groove is equipped in the workbench, the notch of second accommodating groove is located at the upside of workbench, described Telescopic rod is vertically equipped in second accommodating groove, the lower end of the limit plate is connected with the upper end of telescopic rod.
Further technical solution is that the numerical control device is connect with lifting platform and telescopic rod signal.
Further technical solution is that the screw rod is adapted with flange nut.
Compared with prior art, the utility model has the beneficial effects that by the way that sliding slot is arranged on lathe, and in sliding slot Rotation connection setting screw rod, boring cutter is set on a sliding seat, and flange nut is arranged in the lower end of sliding seat, by flange spiral shell Mother set is set on screw rod, and the rotation of screw rod is driven by the work of first motor, and the rotation of screw rod can drive flange nut left Move right, to drive boring cutter on sliding seat mobile, in this way can ten sides easily move boring cutter, and in workbench Upper setting limit plate can consolidate cubic hinge press zero when processing to the cubic pressure machine part processed by limit plate The position of part, and make the position flush in the processing hole and limit plate upper limit hole of processed cubic pressure machine part, at this time Boring cutter can be passed through first from limit hole, then be pierced into processing hole, drive boring cutter to rotate by the work of the second motor right The cubic pressure machine part processed carries out boring processing, and the work of first motor and the second motor is controlled by numerical control device Make, further realizes intelligentized control method.
Detailed description of the invention
Fig. 1 is a kind of cubic pressure machining structural schematic diagram of embodiment of large-scale precision numerical control borer.
Fig. 2 is the structural schematic diagram that large-scale precision numerical control borer another embodiment is used in cubic pressure machining.
In figure: 1, lathe;2, sliding slot;3, sliding seat;4, first motor;5, workbench;6, screw rod;7, flange nut;8, Second motor;9, boring cutter;10, limit plate;11, limit hole;12, numerical control device;13, firm banking;14, ball;15, ball rail Road;16, fixture block;17, transverse part;18, vertical part;19, card slot;20, the first accommodating groove;21, lifting platform;22, fixed plate;23, it supports Bar;24, bearing;25, the second accommodating groove;26, telescopic rod.
Specific embodiment
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.
Fig. 1-2 shows the embodiment of cubic pressure machining large-scale precision numerical control borer.
Embodiment one:
A kind of cubic pressure machining large-scale precision numerical control borer, including lathe 1 are transversely provided with cunning on the lathe 1 Slot 2 is slidably connected in the sliding slot 2 equipped with sliding seat 3, and one end of the sliding slot 2 is equipped with first motor 4, and the other end is equipped with work Make platform 5;
Rotation connection is equipped with screw rod 6 in the sliding slot 2, and the screw rod 6 is connected with the output shaft of first motor 4, the cunning The lower end of dynamic seat 3 is equipped with flange nut 7, and the flange nut 7 is set in sliding slot 2 and is sheathed on screw rod 6;
The sliding seat 3 is equipped with the second motor 8, is connected with boring cutter 9 on the output shaft of second motor 8;
On the workbench 5 vertically be equipped with limit plate 10, the limit plate 10 be equipped with limit hole 11, the boring cutter 9 from It is passed through in limit hole 11;
Numerical control device 12 is equipped in the lathe 1, the numerical control device 12 connects with first motor 4 and 8 signal of the second motor It connects.
By the way that sliding slot 2 is laterally arranged on lathe 1, and the rotation connection setting screw rod 6 in sliding slot 2, boring cutter 9 is set to On one sliding seat 3, and flange nut 7 is set in the lower end of sliding seat 3, flange nut 7 is sheathed on screw rod 6, passes through first The work of motor 4 drives the rotation of screw rod 6, and the rotation of screw rod 6 can drive flange nut 7 to move left and right, to drive sliding Boring cutter 9 on seat 3 is mobile, in this way can ten sides easily move boring cutter 9.
And limit plate 10 is set on workbench 5, when processing to the cubic pressure machine part processed, limit can be passed through Position plate 10 consolidates the position of cubic pressure machine part, and makes on processing hole and the limit plate 10 of processed cubic pressure machine part The position flush of limit hole 11, boring cutter 9 can be passed through first from limit hole 11 at this time, then pierced into processing hole, passed through second The work of motor 8 drives the rotation of boring cutter 9 and then carries out boring processing to the cubic pressure machine part processed, and passes through numerical control Device 12 controls the work of first motor 4 and the second motor 8, further realizes intelligentized control method.
Numerical control device 12 is existing numerical control device, and first motor 4 and the second motor 8 are matched with numerical control device 12 Existing motor, is provided with control chip in first motor 4 and the second motor 8, and control chip passes through data line and number Device 12 is controlled to connect.
Embodiment two:
One end of the lathe 1 is equipped with firm banking 13, and the firm banking 13 is cylindrical, and the workbench 5 rotates It is connected in firm banking 13;
More than two balls 14 are radially provided with along 5 outer wall of workbench, along the diameter of 13 inner wall of firm banking To ball orbit 15 is equipped with, the ball 14, which is slidably connected, to be set in ball orbit 15.
After the cubic hinge press components of required processing to be placed in workbench 5 and are processed, when needing to multiple flat When face is processed, be all usually at present by manual rotation's cubic hinge press components, by boring cutter 9 to each face successively It is processed, the labor intensity of staff will be made very big in this way, and working efficiency is not also high.
On the basis of example 1, through this embodiment described in mode be configured, when need to each face carry out When processing, only ball 14 need to be made to roll in ball orbit 15 by rotary work-table 5, workbench 5 can be enable at fixed bottom Rotation, can be not required to rotate the components of cubic hinge press, not only greatly save labour cost, may be used also in seat 13 Promote working efficiency.
Ball 14 is adapted with ball orbit 15, with guarantee workbench 5 can in firm banking 13 normal rotation, rotation Power resources are the platform 5 that manually pushes the work forward.
Embodiment three:
The workbench 5 edge rotation connection be equipped with fixture block 16, the fixture block 16 be in " L " font, including one at The transverse part 17 of type and vertical part 18, one end of the transverse part 17 and the edge of workbench 5 are rotatablely connected, the other end and vertical part 18 Upper end is connected;
The upper end of 13 outer wall of firm banking is vertically equipped with card slot 19, there are two the notch of the card slot 19 is set, wherein One notch is located on the outer wall of firm banking 13, and other side notch is located at the upside of firm banking 13, and the fixture block 16 passes through After rotation, vertical part 18 is set in card slot 19;
The card slot 19 is equipped with more than two radially uniform distributions along 13 outer wall of firm banking.
It on the basis of example 2,, will by rotating fixture block 16 when needing that position is fixed after the rotation of workbench 5 The vertical part 18 of fixture block 16 is arranged in card slot 19, can be realized by fixture block 16 and card slot 19 and be consolidated the position of workbench 5 It is fixed, avoid the position of workbench 5 from arbitrarily rotating and influence the processing of cubic hinge press components.
Transverse part 17 plays the role of connecting vertical part 18, and one end of transverse part 17 and the upper end of vertical part 18 are integrally formed, to guarantee The whole stability of fixture block 16, and the edge of the other end of transverse part 17 and workbench 5 is rotatablely connected, specifically in workbench 5 Edge be provided with bearing block, the rotation connection that both the end of transverse part 17 is hinged in bearing block to realize.
The vertical part 18 of fixture block 16 is adapted with card slot 19, sets fixture block 16 to guarantee that card slot 19 can successfully block, card slot 19 is set It is equipped with two or more and along the radially uniform distribution of 13 outer wall of firm banking, when workbench 5 turns to different location, fixture block 16 can also rotate with it different positions, and more than two card slots 19, which are arranged, can make workbench 5 to turn to each position When, position that fixture block 16 can have card slot 19 to carry out stationary work-table 5.
Example IV:
The sliding seat 3 is equipped with the first accommodating groove 20, and the notch of first accommodating groove 20 is set to the upper of sliding seat 3 Side, is equipped with lifting platform 21 in first accommodating groove 20, and the upper end of the lifting platform 21 is transversely provided with fixed plate 22, and described second Motor 8 is set to one end of fixed plate 22;
The other end of the fixed plate 22 is vertically equipped with support rod 23, and the upper end of the support rod 23 is equipped with bearing 24, institute Boring cutter 9 is stated to be fixed in bearing 24;
It is equipped with the second accommodating groove 25 in the workbench 5, the notch of second accommodating groove 25 is located at the upper of workbench 5 Side is vertically equipped with telescopic rod 26 in second accommodating groove 25, and the lower end of the limit plate 10 is connected with the upper end of telescopic rod 26.
On the basis of example 1, by the way that the first accommodating groove 20 of notch upward is arranged on sliding seat 3, and first Lifting platform 21 is set in accommodating groove 20, the elevating movement of lifting platform 21 can drive the raising and lowering of fixed plate 22, and second Motor 8 is arranged in fixed plate 22, can drive the up and down motion of the second motor 8, is the fortune up and down for controlling boring cutter 9 It is dynamic, with the height of this regulating boring cutter 9.
Support rod 23 is set in fixed plate 22, and bearing 24 is set in the upper end of support rod 23, the middle section of boring cutter 9 is fixed In bearing 24, bearing 24 and support rod 23 play a supporting role to boring cutter 9, and the stress of boring cutter 9 more balances.
And notch the second accommodating groove 25 upward is set in workbench 5, and vertically arranged in the second accommodating groove 25 stretches Contracting bar 26 drives the up and down motion of limit plate 10 by the stretching motion up and down of telescopic rod 26, to adjust the height of limit plate 10 Degree.
Telescopic rod 26 is equipped with two or more and is evenly distributed in the second accommodating groove 25, makes the fixation of 26 lower end of limit plate It is more stable.
By the stretching motion up and down of the elevating movement of lifting platform 21 telescopic rod 23, come regulating boring cutter 9 and workbench 5 Height, to adapt to the cubic hinge press components of different model.
Embodiment five:
The numerical control device 12 is connect with lifting platform 21 and 26 signal of telescopic rod, and lifting platform 21 is existing electric lifting platform, Telescopic rod 26 is existing electric telescopic rod, and battery is provided in lathe 1, and battery passes through conducting wire and lifting platform 21 and telescopic rod 26 are connected, and to guarantee the normal work of lifting platform 21 and telescopic rod 26, and control lifting platform 21 by numerical control device 12 and stretch The work of contracting bar 26, is further reduced the labor intensity of people, and promotes working efficiency.
Embodiment six:
The screw rod 6 is adapted with flange nut 7, to guarantee that flange nut 7 can normally slide on screw rod 6, Jin Erbao Card sliding seat 3 can be slided normally.
Although reference be made herein to the utility model is described in multiple explanatory embodiments of the utility model, still, It should be understood that those skilled in the art can be designed that a lot of other modification and implementations, these modifications and implementations It will fall within scope and spirit disclosed in the present application.More specifically, it discloses in the application, drawings and claims In range, can building block to theme combination layout and/or layout carry out a variety of variations and modifications.In addition to building block And/or outside the modification and improvement of layout progress, to those skilled in the art, other purposes also be will be apparent.

Claims (6)

1. a kind of cubic pressure machining large-scale precision numerical control borer, including lathe (1), it is characterised in that: the lathe (1) On be transversely provided with sliding slot (2), is slidably connected in the sliding slot (2) equipped with sliding seat (3), one end of the sliding slot (2) is equipped with the One motor (4), the other end are equipped with workbench (5);
Rotation connection is equipped with screw rod (6) in the sliding slot (2), and the screw rod (6) is connected with the output shaft of first motor (4), institute The lower end for stating sliding seat (3) is equipped with flange nut (7), and the flange nut (7) is set in sliding slot (2) and is sheathed on screw rod (6) on;
The sliding seat (3) is equipped with the second motor (8), is connected with boring cutter (9) on the output shaft of second motor (8);
Limit plate (10) vertically are equipped on the workbench (5), the limit plate (10) is equipped with limit hole (11), the boring cutter (9) it is passed through out of limit hole (11);
Numerical control device (12) are equipped in the lathe (1), the numerical control device (12) and first motor (4) and the second motor (8) Signal connection.
2. cubic pressure machining large-scale precision numerical control borer according to claim 1, it is characterised in that: the lathe (1) one end is equipped with firm banking (13), and the firm banking (13) is cylindrical, workbench (5) the rotation connection setting In firm banking (13);
More than two balls (14) are radially provided with along the workbench (5) outer wall, along the firm banking (13) inner wall It is radially provided with ball orbit (15), the ball (14), which is slidably connected, to be set in ball orbit (15).
3. cubic pressure machining large-scale precision numerical control borer according to claim 2, it is characterised in that: the work The edge rotation connection of platform (5) is equipped with fixture block (16), and the fixture block (16) is in " L " font, including integrally formed transverse part (17) it is rotatablely connected with vertical part (18), one end of the transverse part (17) and the edge of workbench (5), the other end and vertical part (18) Upper end be connected;
The upper end of firm banking (13) outer wall is vertically equipped with card slot (19), there are two the notch of the card slot (19) is set, In a notch be located on the outer wall of firm banking (13), other side notch is located at the upside of firm banking (13), the fixture block (16) after rotation, vertical part (18) are set in card slot (19);
The card slot (19) is equipped with more than two radially uniform distributions along firm banking (13) outer wall.
4. cubic pressure machining large-scale precision numerical control borer according to claim 1, it is characterised in that: the sliding Seat (3) is equipped with the first accommodating groove (20), and the notch of first accommodating groove (20) is set to the upside of sliding seat (3), described Lifting platform (21) are equipped in first accommodating groove (20), the upper end of the lifting platform (21) is transversely provided with fixed plate (22), and described the Two motors (8) are set to one end of fixed plate (22);
The other end of the fixed plate (22) is vertically equipped with support rod (23), and the upper end of the support rod (23) is equipped with bearing (24), the boring cutter (9) is fixed in bearing (24);
The second accommodating groove (25) are equipped in the workbench (5), the notch of second accommodating groove (25) is located at workbench (5) Upside is vertically equipped with telescopic rod (26) in second accommodating groove (25), the lower end and telescopic rod (26) of the limit plate (10) Upper end be connected.
5. cubic pressure machining large-scale precision numerical control borer according to claim 4, it is characterised in that: the numerical control Device (12) is connect with lifting platform (21) and telescopic rod (26) signal.
6. cubic pressure machining large-scale precision numerical control borer according to claim 1, it is characterised in that: the screw rod (6) it is adapted with flange nut (7).
CN201821291800.3U 2018-08-10 2018-08-10 Cubic pressure machining large-scale precision numerical control borer Active CN208556042U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201821291800.3U CN208556042U (en) 2018-08-10 2018-08-10 Cubic pressure machining large-scale precision numerical control borer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201821291800.3U CN208556042U (en) 2018-08-10 2018-08-10 Cubic pressure machining large-scale precision numerical control borer

Publications (1)

Publication Number Publication Date
CN208556042U true CN208556042U (en) 2019-03-01

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111889703A (en) * 2020-07-31 2020-11-06 广州市欧树环保科技有限公司 Boring cutter for machining end face of gearbox

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111889703A (en) * 2020-07-31 2020-11-06 广州市欧树环保科技有限公司 Boring cutter for machining end face of gearbox

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