CN201754648U - Two-dimension positioning adjustment device - Google Patents
Two-dimension positioning adjustment device Download PDFInfo
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- CN201754648U CN201754648U CN 201020156764 CN201020156764U CN201754648U CN 201754648 U CN201754648 U CN 201754648U CN 201020156764 CN201020156764 CN 201020156764 CN 201020156764 U CN201020156764 U CN 201020156764U CN 201754648 U CN201754648 U CN 201754648U
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- axis
- slide plate
- spring
- screw rod
- adjusting mechanism
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Abstract
The utility model relates to a two-dimension positioning adjustment device, which comprises an adjusting base plate. The adjusting base plate is provided with a Y-axis adjusting mechanism, an X-axis adjusting mechanism is arranged on the Y-axis adjusting mechanism, the Y-shaped adjusting mechanism comprises a Y-axis sliding pair and a Y-axis control mechanism connected with the Y-axis sliding pair, the Y-axis adjusting mechanism is connected with a Y-axis spring, the Y-axis spring is connected with a Y-axis spring baffle plate which is arranged on the adjusting base plate, the X-axis adjusting mechanism comprises an X-axis sliding pair and an X-axis control mechanism connected with the X-axis sliding pair, the X-axis sliding pair is connected with an X-axis spring, and the X-axis spring is connected with an X-axis spring baffle plate which is arranged on the Y-axis sliding pair. The two-dimension positioning adjustment device can be used for adjusting a machining head component with larger position error in X-axis and Y-axis, thereby reducing position error between the machining head component and a reference head component and increasing machining precision.
Description
[technical field]
The utility model relates to positioning adjustment device, relates in particular to a kind of two-dimensional localization adjusting device.
[background technology]
In the processing unit (plant) of the printed substrate of bull; because machining and rigging error; usually can cause its processing head assembly position deviation to be arranged with respect to benchmark head assembly; especially be embodied on X on its table plane, the Y direction; at present; for overcome the processing head assembly on X, Y direction with the position deviation of benchmark head assembly; usually adopt software to compensate; but this compensation range is limited; if the position deviation of processing head assembly and benchmark head assembly is bigger; will exceed the scope of compensation, influence machining accuracy.
[utility model content]
In order better to overcome above-mentioned processing head and benchmark head position deviation exceeds offset, influence the defective of machining accuracy, the utility model provides a kind of two-dimensional localization adjusting device.
The technical scheme that its technical problem that solves the utility model adopts is: a kind of two-dimensional localization adjusting device is provided, comprise the adjustment substrate, described adjustment substrate is provided with the Y-axis adjusting mechanism, described Y-axis adjusting mechanism is provided with the X-axis adjusting mechanism, described Y-axis adjusting mechanism comprises Y-axis moving sets and the Y-axis controlling organization that is connected with described Y-axis moving sets, described Y-axis adjusting mechanism is connected with the Y-axis spring, described adjustment substrate is provided with the Y-axis spring stop, described Y-axis spring is connected with described Y-axis spring stop, described X-axis adjusting mechanism comprises X-axis moving sets and the X-axis controlling organization that is connected with described X-axis moving sets, described X-axis moving sets is connected with the X-axis spring, described Y-axis moving sets is provided with the X-axis spring stop, and described X-axis spring is connected with described X-axis spring stop.
Further improvement of the utility model is: described Y-axis moving sets comprises Y-axis guide rail and the Y-axis slide plate that is arranged on the described Y-axis guide rail, described Y-axis guide rail is arranged on the described adjustment substrate, described Y-axis spring is connected with described Y-axis slide plate, described X-axis moving sets comprises X-axis guide rail and the X-axis slide plate that is arranged on the described X-axis guide rail, described X-axis guide rail is arranged on the described Y-axis slide plate, and described X-axis spring is connected with described X-axis slide plate.
Further improvement of the utility model is: described Y-axis controlling organization comprises Y-axis adjustment seat that is arranged on the described adjustment substrate and the Y-axis screw rod that is arranged on the described Y-axis adjustment seat, described Y-axis screw rod is connected with described Y-axis slide plate, described X-axis controlling organization comprises X-axis adjustment seat that is arranged on the described Y-axis slide plate and the X-axis screw rod that is arranged on the described X-axis adjustment seat, and described X-axis screw rod is connected with described X-axis slide plate.
Further improvement of the utility model is: described Y-axis spring, Y-axis screw rod lay respectively at the both sides of described Y-axis slide plate, and described Y-axis spring and described Y-axis spring stop connect.
Further improvement of the utility model is: described Y-axis spring, Y-axis screw rod are positioned at the homonymy of described Y-axis slide plate, and described Y-axis spring sockets mutually with described Y-axis spring stop.
Further improvement of the utility model is: described X-axis spring, X-axis screw rod lay respectively at the both sides of described X-axis slide plate, and described X-axis spring and described X-axis spring stop connect.
Further improvement of the utility model is: described X-axis spring, X-axis screw rod are positioned at the homonymy of described X-axis slide plate, and described X-axis spring sockets mutually with described X-axis spring stop.
Further improvement of the utility model is: described X-axis slide plate is connected with the adjustment anchor clamps.
Further improvement of the utility model is: described adjustment substrate is provided with the Y-axis fixed head, and described Y-axis fixed head is provided with the Y-axis screw, and described Y-axis screw passes described Y-axis fixed head and is connected with described Y-axis slide plate.
Further improvement of the utility model is: described Y-axis slide plate is provided with the X-axis fixed head, and described X-axis fixed head is provided with the X-axis screw, and described X-axis screw passes described X-axis fixed head and is connected with described X-axis slide plate.
Compared with prior art, the beneficial effect that the utlity model has is: pass through such scheme, can carry out the adjustment of X, Y two-dimensional directional to the bigger processing head assembly of position deviation,, improve machining accuracy to reduce the position deviation of processing head assembly and benchmark head assembly.
[description of drawings]
Fig. 1 is the perspective view () of a kind of two-dimensional localization adjusting device of the utility model;
Fig. 2 is the perspective view (two) of two-dimensional localization adjusting device described in the utility model;
Fig. 3 is the front view of two-dimensional localization adjusting device described in the utility model;
Fig. 4 is the perspective view (three) of two-dimensional localization adjusting device described in the utility model;
Fig. 5 is the right view of two-dimensional localization adjusting device described in the utility model.
[embodiment]
Below in conjunction with the drawings and specific embodiments the utility model is described in further detail: in conjunction with Fig. 1 to Fig. 5, a kind of two-dimensional localization adjusting device, comprise and adjust substrate 30, promptly adjust reference seat, X-axis with workbench, Y-axis forms two dimensional surface, described adjustment substrate 30 is provided with the Y-axis adjusting mechanism, described Y-axis adjusting mechanism is provided with the X-axis adjusting mechanism, described Y-axis adjusting mechanism comprises Y-axis moving sets and the Y-axis controlling organization that is connected with described Y-axis moving sets, described Y-axis adjusting mechanism is connected with Y-axis spring 14, described adjustment substrate 30 is provided with Y-axis spring stop 15, described Y-axis spring 14 is connected with described Y-axis spring stop 15, described X-axis adjusting mechanism comprises X-axis moving sets and the X-axis controlling organization that is connected with described X-axis moving sets, described X-axis moving sets is connected with X-axis spring 24, described Y-axis moving sets is provided with X-axis spring stop 25, and described X-axis spring 24 is connected with described X-axis spring stop 25.
Wherein, described Y-axis moving sets comprises Y-axis guide rail 11 and the Y-axis slide plate 13 that is arranged on the described Y-axis guide rail 11, described Y-axis guide rail 11 is arranged on the described adjustment substrate 30, be specially, the bottom of described Y-axis slide plate 13 is provided with slide block 12, described slide block 12 is arranged on the described Y-axis guide rail 11, described Y-axis slide plate 13 is connected with described Y-axis guide rail 11 slidingtypes by described slide block 12, be that described Y-axis slide plate 13 has formed the Y-axis moving sets by described slide block 12 with described Y-axis guide rail 11, described Y-axis guide rail 11 is a line slideway, described Y-axis slide plate 13 is connected with Y-axis spring 14, described X-axis moving sets comprises X-axis guide rail 21 and the X-axis slide plate 23 that is arranged on the described X-axis guide rail 21, described X-axis guide rail 21 is arranged on the described Y-axis slide plate 13, be specially, the bottom of described Y-axis slide plate 23 is provided with slide block 22, described slide block 22 is arranged on the described Y-axis guide rail 21, described X-axis slide plate 23 is connected with described X-axis guide rail 21 slidingtypes by described slide block 22, be that described X-axis slide plate 23 has formed described X-axis moving sets by described slide block 22 with described X-axis guide rail 21, described Y-axis guide rail 21 is a line slideway, and described X-axis slide plate 23 is connected with described X-axis spring 24.
Described Y-axis controlling organization comprises Y-axis adjustment seat 17 that is arranged on the described adjustment substrate 30 and the Y-axis screw rod 16 that is arranged on the described Y-axis adjustment seat 17, described Y-axis screw rod 16 is connected with described Y-axis slide plate 13, described X-axis controlling organization comprises X-axis adjustment seat 27 that is arranged on the described Y-axis slide plate 13 and the X-axis screw rod 26 that is arranged on the described X-axis adjustment seat 27, and described X-axis screw rod 26 is connected with described X-axis slide plate 23.
Be respectively equipped with displacement transducer on described X-axis adjusting mechanism, the Y-axis adjusting mechanism, described displacement transducer is connected with central processing unit, and described central processing unit is connected with display, can be used for showing adjustment amount, helps accurately adjusting and data record.
As shown in Figure 1, described X-axis slide plate 23 is connected with the adjustment anchor clamps, is specially described X-axis slide plate 23 and is provided with installing hole 210, and described installing hole 210 is used to install described adjustment anchor clamps, and described adjustment anchor clamps are used for fixing the adjustment object.
As shown in Figure 2, when described Y-axis spring 14, when Y-axis screw rod 16 lays respectively at the both sides of described Y-axis slide plate 13, described Y-axis spring 14 connects with described Y-axis spring stop 15, be that described Y-axis spring 14 is under the compressing of Y-axis slide plate 13 and Y-axis spring stop 15, be compressive state, described Y-axis screw rod 16 is turned clockwise, promoting described Y-axis slide plate moves towards the feeding of Y-axis positive direction, this moment, the Y-axis spring further compressed, described Y-axis screw rod 16 is rotated counterclockwise, under the effect of Y-axis spring restoring force, described Y-axis slide plate moves towards the feeding of Y-axis negative direction.
When described Y-axis spring 14, when Y-axis screw rod 16 is positioned at the homonymy of described Y-axis slide plate 13, described Y-axis spring 14 sockets mutually with described Y-axis spring stop 15, be that described Y-axis spring 14 is under the pullling of Y-axis slide plate 13 and Y-axis spring stop 15, be elongated condition, described Y-axis screw rod 16 is turned clockwise, promoting described Y-axis slide plate moves towards the feeding of Y-axis positive direction, this moment, the Y-axis spring further elongated, described Y-axis screw rod 16 is rotated counterclockwise, under the effect of Y-axis spring restoring force, described Y-axis slide plate moves towards the feeding of Y-axis negative direction.
As shown in Figure 5, when described X-axis spring 24, when X-axis screw rod 26 lays respectively at the both sides of described X-axis slide plate 23, described X-axis spring 24 connects with described X-axis spring stop 25, be that described X-axis spring 24 is under the compressing of X-axis slide plate 23 and X-axis spring stop 25, be compressive state, described Y-axis screw rod 16 is turned clockwise, promoting described Y-axis slide plate moves towards the feeding of Y-axis positive direction, this moment, the Y-axis spring further compressed, described Y-axis screw rod 16 is rotated counterclockwise, under the effect of Y-axis spring restoring force, described Y-axis slide plate moves towards the feeding of Y-axis negative direction.
When described X-axis spring 24, when X-axis screw rod 26 is positioned at the homonymy of described X-axis slide plate 23, described X-axis spring 24 sockets mutually with described X-axis spring stop 25, be that described X-axis spring 24 is under the pullling of X-axis slide plate 23 and X-axis spring stop 25, be elongated condition, described Y-axis screw rod 16 is turned clockwise, promoting described Y-axis slide plate moves towards the feeding of Y-axis positive direction, this moment, the Y-axis spring further elongated, described Y-axis screw rod 16 is rotated counterclockwise, under the effect of Y-axis spring restoring force, described Y-axis slide plate moves towards the feeding of Y-axis negative direction.
, all can realize rotating Y-axis screw rod 16 by above-mentioned four embodiment and adjust the position of Y-axis slide plate 13 or the position that rotation X-axis screw rod 26 is adjusted X-axis slide plate 23, thereby the position of realization X-axis, Y-axis two-dimensional directional is adjusted to shown in Figure 5 as Fig. 1.
As shown in Figure 1, described adjustment substrate 30 is provided with Y-axis fixed head 18, is provided with the Y-axis locking mechanism between described Y-axis fixed head 18 and the described Y-axis slide plate 13, is specially, described Y-axis fixed head 18 is provided with the Y-axis screw, and described Y-axis screw passes described Y-axis fixed head 18 and is connected with described Y-axis slide plate 13.
As shown in Figure 2, described Y-axis slide plate 13 is provided with X-axis fixed head 28, is provided with the X-axis locking mechanism between described X-axis fixed head 28 and the described X-axis slide plate 23, is specially, described X-axis fixed head 28 is provided with the X-axis screw, and described X-axis screw passes described X-axis fixed head 28 and is connected with described X-axis slide plate 23.
As shown in Figure 2, described X-axis fixed head 28 is connected with latch segment 29, described latch segment 29 is used for installing, carrying external annex, as display etc., in order to make structure more compact, described latch segment 29 can be fixed on the X-axis slide plate 23, described X-axis screw passes described X-axis fixed head 28 and is connected with described latch segment 29, thereby realizes the locking to X-axis slide plate 23.
A kind of two-dimensional localization adjusting device that the utility model provides, can be used for the adjustment of bull printed substrate processing unit (plant), can carry out X to the bigger processing head assembly of position deviation, the adjustment of Y two-dimensional directional, to reduce the position deviation of processing head assembly and benchmark head assembly, improve machining accuracy, can guarantee the accurate adjustment of two-dimensional directional, the height that can guarantee two-dimensional directional again rigidly fixes connection, thereby realize being adjusted the high stable of element, hi-Fix, one our the two-dimensional localization adjusting device that the utility model can also be provided is applied to other X, the device that Y two-dimensional directional positioning accuracy request is higher is particularly useful for X, accurate adjustment on the Y two-dimensional directional.
Above content be in conjunction with concrete preferred implementation to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection range of the present utility model.
Claims (10)
1. two-dimensional localization adjusting device, it is characterized in that: comprise and adjust substrate (30), described adjustment substrate (30) is provided with the Y-axis adjusting mechanism, described Y-axis adjusting mechanism is provided with the X-axis adjusting mechanism, described Y-axis adjusting mechanism comprises Y-axis moving sets and the Y-axis controlling organization that is connected with described Y-axis moving sets, described Y-axis adjusting mechanism is connected with Y-axis spring (14), described adjustment substrate (30) is provided with Y-axis spring stop (15), described Y-axis spring (14) is connected with described Y-axis spring stop (15), described X-axis adjusting mechanism comprises X-axis moving sets and the X-axis controlling organization that is connected with described X-axis moving sets, described X-axis moving sets is connected with X-axis spring (24), described Y-axis moving sets is provided with X-axis spring stop (25), and described X-axis spring (24) is connected with described X-axis spring stop (25).
2. two-dimensional localization adjusting device according to claim 1, it is characterized in that: described Y-axis moving sets comprises Y-axis guide rail (11) and is arranged on Y-axis slide plate (13) on the described Y-axis guide rail (11), described Y-axis guide rail (11) is arranged on the described adjustment substrate (30), described Y-axis spring (14) is connected with described Y-axis slide plate (13), described X-axis moving sets comprises X-axis guide rail (21) and is arranged on X-axis slide plate (23) on the described X-axis guide rail (21), described X-axis guide rail (21) is arranged on the described Y-axis slide plate (13), and described X-axis spring (24) is connected with described X-axis slide plate (23).
3. two-dimensional localization adjusting device according to claim 2, it is characterized in that: described Y-axis controlling organization comprises the Y-axis adjustment seat (17) that is arranged on the described adjustment substrate (30) and is arranged on Y-axis screw rod (16) on the described Y-axis adjustment seat (17), described Y-axis screw rod (16) is connected with described Y-axis slide plate (13), described X-axis controlling organization comprises the X-axis adjustment seat (27) that is arranged on the described Y-axis slide plate (13) and is arranged on X-axis screw rod (26) on the described X-axis adjustment seat (27) that described X-axis screw rod (26) is connected with described X-axis slide plate (23).
4. two-dimensional localization adjusting device according to claim 3 is characterized in that: described Y-axis spring (14), Y-axis screw rod (16) lay respectively at the both sides of described Y-axis slide plate (13), and described Y-axis spring (14) connects with described Y-axis spring stop (15).
5. two-dimensional localization adjusting device according to claim 3 is characterized in that: described Y-axis spring (14), Y-axis screw rod (16) are positioned at the homonymy of described Y-axis slide plate (13), and described Y-axis spring (14) sockets mutually with described Y-axis spring stop (15).
6. two-dimensional localization adjusting device according to claim 3 is characterized in that: described X-axis spring (24), X-axis screw rod (26) lay respectively at the both sides of described X-axis slide plate (23), and described X-axis spring (24) connects with described X-axis spring stop (25).
7. two-dimensional localization adjusting device according to claim 3 is characterized in that: described X-axis spring (24), X-axis screw rod (26) are positioned at the homonymy of described X-axis slide plate (23), and described X-axis spring (24) sockets mutually with described X-axis spring stop (25).
8. two-dimensional localization adjusting device according to claim 2 is characterized in that: described X-axis slide plate (23) is connected with the adjustment anchor clamps.
9. two-dimensional localization adjusting device according to claim 2, it is characterized in that: described adjustment substrate (30) is provided with Y-axis fixed head (18), described Y-axis fixed head (18) is provided with the Y-axis screw, and described Y-axis screw passes described Y-axis fixed head (18) and is connected with described Y-axis slide plate (13).
10. two-dimensional localization adjusting device according to claim 2, it is characterized in that: described Y-axis slide plate (13) is provided with X-axis fixed head (28), described X-axis fixed head (28) is provided with the X-axis screw, and described X-axis screw passes described X-axis fixed head (28) and is connected with described X-axis slide plate (23).
Priority Applications (1)
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CN 201020156764 CN201754648U (en) | 2010-04-06 | 2010-04-06 | Two-dimension positioning adjustment device |
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CN 201020156764 CN201754648U (en) | 2010-04-06 | 2010-04-06 | Two-dimension positioning adjustment device |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103256953A (en) * | 2013-04-24 | 2013-08-21 | 丹东百特仪器有限公司 | Two-dimensional adjusting device |
CN104616961A (en) * | 2015-02-16 | 2015-05-13 | 江苏天瑞仪器股份有限公司 | Ion source three-dimensional linkage mechanism |
CN105786023A (en) * | 2016-03-01 | 2016-07-20 | 中山大学 | Solar sensor micro-adjusting device |
CN107991748A (en) * | 2016-10-26 | 2018-05-04 | Tdk株式会社 | Lens driver |
CN109158993A (en) * | 2018-11-05 | 2019-01-08 | 福建省飞阳光电股份有限公司 | A kind of spherical groove sander and polishing process |
-
2010
- 2010-04-06 CN CN 201020156764 patent/CN201754648U/en not_active Expired - Lifetime
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103256953A (en) * | 2013-04-24 | 2013-08-21 | 丹东百特仪器有限公司 | Two-dimensional adjusting device |
CN103256953B (en) * | 2013-04-24 | 2015-12-02 | 丹东百特仪器有限公司 | A kind of two-dimensional adjusting device |
CN104616961A (en) * | 2015-02-16 | 2015-05-13 | 江苏天瑞仪器股份有限公司 | Ion source three-dimensional linkage mechanism |
CN105786023A (en) * | 2016-03-01 | 2016-07-20 | 中山大学 | Solar sensor micro-adjusting device |
CN107991748A (en) * | 2016-10-26 | 2018-05-04 | Tdk株式会社 | Lens driver |
CN109158993A (en) * | 2018-11-05 | 2019-01-08 | 福建省飞阳光电股份有限公司 | A kind of spherical groove sander and polishing process |
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Granted publication date: 20110302 |
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CX01 | Expiry of patent term |