CN205496587U - Numerical control lathe depth of parallelism linkage adjustment mechanism - Google Patents
Numerical control lathe depth of parallelism linkage adjustment mechanism Download PDFInfo
- Publication number
- CN205496587U CN205496587U CN201620239974.XU CN201620239974U CN205496587U CN 205496587 U CN205496587 U CN 205496587U CN 201620239974 U CN201620239974 U CN 201620239974U CN 205496587 U CN205496587 U CN 205496587U
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- shell
- rotating shaft
- cooperated
- frame
- bevel gear
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Abstract
The utility model discloses an adjust convenient numerical control lathe depth of parallelism linkage adjustment mechanism, include: the frame with set up the supporting legs at the frame lower extreme, slide the clamping machine who sets up in frame one side through the slide rail and construct, set up turning heads and controller at the frame opposite side the lower extreme both sides of supporting legs are provided with adjustable support chassis respectively, the structure that supports the chassis includes: the shell one of shell is served and is provided with first pivot through primary shaft bearing vertical turn, the upper end of first pivot is stretched out the shell and is connected with the regulating block be provided with the regulation hole on the regulating block, the lower extreme of first pivot stretches into interior the wheel with a conical tooth of shell and is connected inside transversely the rotation through the secondary shaft bearing in one side of shell is provided with the second pivot one of second pivot is served and is provided with the 2nd conical tooth wheel of mutually supporting with conical tooth wheel.
Description
Technical field
This utility model relates to a kind of numerically controlled lathe, particularly relates to a kind of numerically controlled lathe depth of parallelism linkage regulation machine
Structure.
Background technology
At mechanical processing industry, numerically controlled lathe is one of the most widely used plant equipment, and initially installs
Time numerically controlled lathe be originally typically all directly adjust the depth of parallelism by plain cushion after place on the ground, using
In journey, once the depth of parallelism of numerically controlled lathe changes, and needs many people to be lifted by numerically controlled lathe and carries out plain cushion thickness
Changing, regulation trouble, degree of regulation does not reaches requirement yet, loses time and manpower.
Utility model content
Technical problem to be solved in the utility model is: provide a kind of numerically controlled lathe depth of parallelism easy to adjust
Linkage adjustment mechanism.
In order to solve above-mentioned technical problem, the technical solution adopted in the utility model is: the numerically controlled lathe depth of parallelism
Linkage adjustment mechanism, including: frame and two spikes being arranged on frame lower end, slided by slide rail and arrange
At the clamping mechanism of frame side, it is arranged on turning head and the controller of frame opposite side, at described spike
It is provided with servo deceleration motor on the ground of side, the motor shaft of described servo deceleration motor is provided with master
Movable sprocket, is respectively arranged with adjustable support base apparatus on four angles of described support underfooting end, described
The structure of adjustable support base apparatus includes: shell, passes through clutch shaft bearing in the upper end, side of described shell
Seat vertical rotating is provided with the first rotating shaft, and the upper end of described first rotating shaft is stretched out shell and is connected with driven sprocket,
Being connected by chain between described drive sprocket and driven sprocket, shell is stretched in the lower end of described first rotating shaft
In with on be connected dish and be connected, on described, on connection dish, be evenly arranged with some connecting holes, connect on described
On the shell of flange lower end, the second bearing block vertical rotating is provided with the second rotating shaft, in described second rotating shaft
Upper end be provided with guide post, the upper end of described conductor rod slide be provided with lower connection dish, in described lower company
It is evenly arranged with some connection posts cooperated with connecting hole on flange, sets in the side of described lower connection dish
It is equipped with keyway, the side, upper end of described guide post is provided with the key cooperated with keyway, in described lower company
The lower end of flange is provided with the jacking ring cooperated with it, and the lower end of described jacking ring is connected with threaded sleeve
Connect, the inner side of described threaded sleeve is provided with male thread, be provided with in the outside of described key lower end guide post
The box thread cooperated with male thread, is provided with the first bevel gear in the lower end of described second rotating shaft, in institute
State and the 3rd bearing block lateral rotation is provided with the 3rd rotating shaft, described on the shell of the first bevel gear side
The second bevel gear cooperated with the first angular wheel it is provided with, the described 3rd on one end of 3rd rotating shaft
It is provided with third hand tap gear, by the 4th bearing block bottom the opposite side of described shell on the other end of rotating shaft
Vertical rotating is provided with the 4th rotating shaft, is provided with and cooperates with third hand tap gear in described 4th rotating shaft
4th bevel gear, is provided with screw rod in the upper end of described 4th bevel gear, is provided with and it on described screw rod
The screw sleeve cooperated, is provided with support chassis on described screw sleeve, and described support chassis is slided and arranged
In the enclosure, the upper end of described support chassis is stretched out shell and is offseted with a spike, described first angular wheel
Diameter is less than the second angular wheel, and the diameter of described second angular wheel and triconic gear is identical, described
The diameter of triconic gear is less than the 4th angular wheel.
The utility model has the advantages that: above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism, according to measurement data
At any time the depth of parallelism of numerically controlled lathe can be adjusted, one man operation, easy to adjust, time saving and energy saving, with
Time can as required the depth of parallelism at each angle of lathe individually be regulated, it is also possible to whole lathe flat
Row degree carries out Coupled motion regulation, and degree of regulation is high, and the crudy of product is effectively ensured.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model numerically controlled lathe depth of parallelism linkage adjustment mechanism.
Fig. 2 is the side-looking structural representation of Fig. 1.
Fig. 3 is the structure for amplifying schematic diagram in Fig. 2 at A.
Fig. 4 is the structure for amplifying schematic diagram in Fig. 3 at B.
In figure: 1, frame, 2, spike, 3, slide rail, 4, clamping mechanism, 5, turning head, 6, control
Device processed, 7, servo deceleration motor, 8, motor shaft, 9, drive sprocket, 10, adjustable support base apparatus,
11, shell, 12, clutch shaft bearing seat, the 13, first rotating shaft, 14, driven sprocket, 15, chain, 16,
Upper connection dish, 17, connecting hole, the 18, second bearing block, the 19, second rotating shaft, 20, guide post, 21,
Lower connection dish, 22, connect post, 23, keyway, 24, key, 25, jacking ring, 26, threaded sleeve, 27,
Male thread, 28, box thread, the 29, first bevel gear, the 30, the 3rd bearing block, the 31, the 3rd rotating shaft, 32,
Second bevel gear, 33, third hand tap gear, the 34, the 4th bearing block, the 35, the 4th rotating shaft, the 36, the 4th cone
Gear, 37, screw rod, 38, screw sleeve, 39, support chassis.
Detailed description of the invention
Particular content of the present utility model is described in detail below in conjunction with the accompanying drawings with specific embodiment.
As shown in Figure 1, Figure 2, Figure 3, Figure 4, numerically controlled lathe depth of parallelism linkage adjustment mechanism, including: machine
Frame 1 and two spikes 2 being arranged on frame 1 lower end, be slidably arranged in the dress of frame 1 side by slide rail 3
Clamp mechanism 4, is arranged on turning 5 and the controller 6 of frame 1 opposite side, described spike 2 side
It is provided with servo deceleration motor 7 on ground, the motor shaft 8 of described servo deceleration motor 7 is provided with actively
Sprocket wheel 9, is respectively arranged with adjustable support base apparatus 10 on four angles of described spike 2 lower end,
The structure of described adjustable support base apparatus 10 includes: shell 11, in the upper end, side of described shell 11
Clutch shaft bearing seat 12 vertical rotating is provided with the first rotating shaft 13, and the upper end of described first rotating shaft 13 is stretched out
Shell 11 is connected with driven sprocket 14, by chain 15 between described drive sprocket 9 and driven sprocket 14
Be connected, the lower end of described first rotating shaft 13 stretch in shell 11 with on be connected dish 16 and be connected, described
Some connecting holes 17 it are evenly arranged with, on described on the shell 11 of connection dish 16 lower end on upper connection dish 16
Second bearing block 18 vertical rotating is provided with the second rotating shaft 19, sets in the upper end of described second rotating shaft 19
Being equipped with guide post 20, sliding in the upper end of described conductor rod 20 is provided with lower connection dish 21, in described lower company
Some connection posts 22 cooperated with connecting hole 17 it are evenly arranged with, at described lower connection dish on flange 21
The side of 21 is provided with keyway 23, is provided with and keyway 23 phase interworking in the side, upper end of described guide post 20
The key 24 closed, is provided with, in the lower end of described lower connection dish 21, the jacking ring 25 cooperated with it, described
The lower end of jacking ring 25 is connected with threaded sleeve 26, is provided with public spiral shell in the inner side of described threaded sleeve 26
Stricture of vagina 27, is provided with, in the outside of described key 24 lower end guide post 20, the box thread cooperated with male thread 27
28, the lower end of described second rotating shaft 19 is provided with the first bevel gear 29, described first bevel gear 29 1
On the shell 11 of side, the 3rd bearing block 30 lateral rotation is provided with the 3rd rotating shaft 31, at described 3rd turn
The second bevel gear 32 cooperated with the first angular wheel 29 it is provided with, described on one end of axle 31
It is provided with third hand tap gear 33 on the other end of three rotating shafts 31, passes through bottom the opposite side of described shell 11
4th bearing block 34 vertical rotating is provided with the 4th rotating shaft 35, is provided with and the in described 4th rotating shaft 35
The 4th bevel gear 36 that third hand tap gear 33 cooperates, is provided with spiral shell in the upper end of described 4th bevel gear 36
Bar 37, is provided with the screw sleeve 38 cooperated with it on described screw rod 37, on described screw sleeve 38
Being provided with support chassis 39, described support chassis 39 is slidably arranged in shell 11, described support chassis 39
Upper end stretch out shell 11 and offset with spike 2, the diameter of described first angular wheel 29 is less than the second cone
Shape gear 32, described second angular wheel 32 is identical with the diameter of triconic gear 33, described third hand tap
The diameter of shape gear 33 is less than the 4th angular wheel 36.
Above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism carry out Coupled motion regulation time, rotate successively each can
Threaded sleeve 26 on regulation support chassis device 10, threaded sleeve 26 is by male thread 27 and guide post
Box thread 28 cooperate and move upward thus drive jacking ring 25 to move upward, under jacking ring 25 drives
Connection dish 21 moves upward on guide post 20, under now on key 24, in keyway 23, relative motion keeps
Connection dish 21 does not rotates on guide post 20, and the lower connection dish 21 band post 22 that is dynamically connected moves upward directly
Being inserted in the connecting hole 17 on connection dish 16 to connecting post 22, now threaded sleeve 26 stops the rotation,
Starting servo deceleration motor 7, servo deceleration motor 7 drives drive sprocket 9 to rotate, actively by motor shaft 8
Sprocket wheel 9 drives each driven sprocket 14 to rotate by chain 15, and driven sprocket 14 drives the first rotating shaft 13
Rotating, the first rotating shaft 13 drives upper connection dish 16 to rotate, owing to the connection post 22 on lower connection dish 21 is inserted
Entering in the connecting hole 17 on upper connection dish 16, upper connection dish 16 drives lower connection dish 21 to rotate, lower company
Flange 21 drives guide post 20 to rotate under the effect of key 24, and guide post 20 drives the second rotating shaft 19
Rotating in two bearing bracket 18, the second rotating shaft 19 drives the first bevel gear 29 to rotate, and the first bevel gear 29 carries
Dynamic second bevel gear 32 rotates, and the second bevel gear 32 drives the 3rd rotating shaft 31 to turn in the 3rd bearing block 30
Dynamic, thus drive third hand tap gear 33 to rotate, third hand tap gear 33 drives the 4th bevel gear 36 to rotate, the
Four bevel gears 36 drive the 4th rotating shaft 35 to rotate in the 4th bearing block 34, thus drive screw rod 37 to rotate,
Screw rod 37 rotate drive screw sleeve 38 move upward, screw sleeve 38 move upward drive support chassis 39 to
Upper motion thus the height of regulation spike 2, can be more laborsaving in order to regulate, described first angular wheel
The diameter of 29 is less than the second angular wheel 32, and described second angular wheel 32 is straight with triconic gear 33
Footpath is identical, and the diameter of described triconic gear 33 is less than the 4th angular wheel 36.
When above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism individually regulates, if be detected that numerically controlled lathe
There is parallelism error in some angle, only need to be rotated up by the threaded sleeve 26 at that corresponding angle, make down
On connection dish 21 connect post 22 with on the connecting hole 17 that is connected on dish 16 be connected, startup servo deceleration
Motor 7 can carry out independent altitude mixture control to some foot.
Above-mentioned numerically controlled lathe depth of parallelism linkage adjustment mechanism, can be at any time to numerically controlled lathe according to measurement data
The depth of parallelism is adjusted, one man operation, easy to adjust, time saving and energy saving, simultaneously can be as required to lathe
The depth of parallelism at each angle individually regulate, it is also possible to the depth of parallelism of whole lathe carries out Coupled motion regulation,
Degree of regulation is high, and the crudy of product is effectively ensured.
Claims (1)
- null1. numerically controlled lathe depth of parallelism linkage adjustment mechanism,It is characterized in that: including: frame (1) and be arranged on two spikes (2) of frame (1) lower end,The clamping mechanism (4) of frame (1) side it is slidably arranged in by slide rail (3),It is arranged on turning head (5) and the controller (6) of frame (1) opposite side,The ground of described spike (2) side is provided with servo deceleration motor (7),The motor shaft (8) of described servo deceleration motor (7) is provided with drive sprocket (9),Four angles of described spike (2) lower end are respectively arranged with adjustable support base apparatus (10),The structure of described adjustable support base apparatus (10) including: shell (11),In the upper end, side of described shell (11), clutch shaft bearing seat (12) vertical rotating is provided with the first rotating shaft (13),The upper end of described first rotating shaft (13) is stretched out shell (11) and is connected with driven sprocket (14),It is connected by chain (15) between described drive sprocket (9) with driven sprocket (14),The lower end of described first rotating shaft (13) stretch in shell (11) with on be connected dish (16) and be connected,Some connecting holes (17) it are evenly arranged with on connection dish (16) on described,On described, on the shell (11) of connection dish (16) lower end, the second bearing block (18) vertical rotating is provided with the second rotating shaft (19),The upper end of described second rotating shaft (19) is provided with guide post (20),Slide in the upper end of described guide post (20) and be provided with lower connection dish (21),Described lower connection dish (21) is evenly arranged with some connection posts (22) cooperated with connecting hole (17),The side of described lower connection dish (21) is provided with keyway (23),The key (24) cooperated with keyway (23) it is provided with in the side, upper end of described guide post (20),The lower end of described lower connection dish (21) is provided with the jacking ring (25) cooperated with it,The lower end of described jacking ring (25) is connected with threaded sleeve (26),The inner side of described threaded sleeve (26) is provided with male thread (27),The box thread (28) cooperated with male thread (27) it is provided with in the outside of described key (24) lower end guide post (20),The lower end of described second rotating shaft (19) is provided with the first bevel gear (29),The shell (11) of described first bevel gear (29) side is provided with the 3rd rotating shaft (31) by the 3rd bearing block (30) lateral rotation,One end of described 3rd rotating shaft (31) is provided with the second bevel gear (32) cooperated with the first angular wheel (29),The other end of described 3rd rotating shaft (31) is provided with third hand tap gear (33),Bottom the opposite side of described shell (11), the 4th bearing block (34) vertical rotating is provided with the 4th rotating shaft (35),Described 4th rotating shaft (35) is provided with the 4th bevel gear (36) cooperated with third hand tap gear (33),The upper end of described 4th bevel gear (36) is provided with screw rod (37),Described screw rod (37) is provided with the screw sleeve (38) cooperated with it,Described screw sleeve (38) is provided with support chassis (39),Described support chassis (39) is slidably arranged in shell (11),The upper end of described support chassis (39) is stretched out shell (11) and is offseted with a spike (2),The diameter of described first angular wheel (29) is less than the second angular wheel (32),Described second angular wheel (32) is identical with the diameter of triconic gear (33),The diameter of described triconic gear (33) is less than the 4th angular wheel (36).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620239974.XU CN205496587U (en) | 2016-03-23 | 2016-03-23 | Numerical control lathe depth of parallelism linkage adjustment mechanism |
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CN201620239974.XU CN205496587U (en) | 2016-03-23 | 2016-03-23 | Numerical control lathe depth of parallelism linkage adjustment mechanism |
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CN201620239974.XU Withdrawn - After Issue CN205496587U (en) | 2016-03-23 | 2016-03-23 | Numerical control lathe depth of parallelism linkage adjustment mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105618797A (en) * | 2016-03-23 | 2016-06-01 | 江苏科帆精工设备制造有限公司 | Numerical control lathe parallelism linkage adjustment mechanism |
CN111671524A (en) * | 2020-05-12 | 2020-09-18 | 张子辉 | Portable ultrasonic scanner with power generation function |
-
2016
- 2016-03-23 CN CN201620239974.XU patent/CN205496587U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105618797A (en) * | 2016-03-23 | 2016-06-01 | 江苏科帆精工设备制造有限公司 | Numerical control lathe parallelism linkage adjustment mechanism |
CN111671524A (en) * | 2020-05-12 | 2020-09-18 | 张子辉 | Portable ultrasonic scanner with power generation function |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160824 Effective date of abandoning: 20171020 |
|
AV01 | Patent right actively abandoned |