Source: https://patents.google.com/patent/CN108983556A/en
Timestamp: 2020-07-10 07:27:06
Document Index: 256404988

Matched Legal Cases: ['art, 2111', 'art, 2121', 'art 211', 'art 212', 'art 211', 'arts 2111', 'art 2111', 'art 212', 'arts 2121', 'art 2121', 'art 2121', 'art 2111', 'arts 2121', 'art 211', 'art 212', 'art 211', 'art 212', 'art 2111', 'art 211', 'art 212', 'art 2121', 'art 211', 'art 212', 'art 211', 'art 212', 'art 2111', 'art 211', 'art 2121', 'art 212', 'art 211', 'art 211', 'art 212', 'art 2211', 'art 2111', 'art 2121', 'art 2111', 'art 2121']

CN108983556A - Sided exposure machine and double-faced exposure method - Google Patents
Sided exposure machine and double-faced exposure method Download PDF
CN108983556A
CN108983556A CN201810835176.7A CN201810835176A CN108983556A CN 108983556 A CN108983556 A CN 108983556A CN 201810835176 A CN201810835176 A CN 201810835176A CN 108983556 A CN108983556 A CN 108983556A
CN201810835176.7A
2018-07-26 Priority to CN201810835176.7A priority Critical patent/CN108983556A/en
2018-12-11 Publication of CN108983556A publication Critical patent/CN108983556A/en
The present invention relates to a kind of sided exposure machine and double-faced exposure method, sided exposure machine includes workbench；Exposure mechanism, exposure mechanism include the first exposure components and the second exposure components, and the first exposure components and the second exposure components are in workbench formation exposure region；And loader mechanism, loader mechanism include the first loading stage and the second loading stage, the first loading stage and the second loading stage can be along movable workbench.First loading stage is mobile and the exposure of the first part to be exposed is carried out by exposure region, second loading stage loads the second part to be exposed, first loading stage retracts after the completion of first part exposure to be exposed, second loading stage is mobile and the exposure of the second part to be exposed is carried out by exposure region, and then the first unloading and loading to carrier member on the first loading stage is carried out while exposure using the second loading stage, it is not only convenient for realizing automation exposure, and also improve exposure efficiency, simultaneously without overturning, reduce exposure process, improves exposure accuracy.
Sided exposure machine and double-faced exposure method
The present invention relates to double-sided exposure technical fields, more particularly to a kind of sided exposure machine and double-faced exposure method.
Traditional sided exposure machine generallys use the exposure that film transfer carries out double-sided PCB.Before exposure, need first to make Make the film of pattern to be transferred；Then, it will be separately fixed on upper and lower surface glass with the two-sided patterned film；Then, will The circuit board of pattern to be transferred is clipped between two blocks of glass up and down, is exposed using bluish violet higher source luminance, by line map Case is transferred on wiring board, completes double-sided exposure.And for laser direct-writing exposure machine, generally use single side exposure.First to circuit Plate is wherein exposed on one side, is overturn, is then exposed again to the another side of circuit board, finally after the completion of to be exposed Complete the double-sided exposure to circuit board.
However, laser direct-writing exposure machine when carrying out double-sided exposure, need to carry out turning operation, and turning operation will necessarily produce The problem of being aligned after raw overturning, not only increases exposure process, while also can influence exposure accuracy because of aligning accuracy problem, To influence final exposure effect.
Based on this, it is necessary to provide a kind of sided exposure machine and double-faced exposure method.The sided exposure machine is being exposed Shi Wuxu overturning, reduces exposure process, improves exposure accuracy, and then promote exposal image-forming quality；The double-faced exposure method application In sided exposure machine above-mentioned, exposure efficiency is higher, and is easy to implement automatic operation.
Its technical solution is as follows:
On the one hand, a kind of sided exposure machine, including workbench are provided, workbench is equipped with exposure through-hole；Exposure mechanism exposes Ray machine structure includes the first exposure components and the second exposure components, and the first exposure components and the second exposure components are respectively arranged on workbench Two sides and workbench formed exposure region, exposure region with expose through-hole be correspondingly arranged；And loader mechanism, loader mechanism include First loading stage and the second loading stage, the first loading stage and the second loading stage along movable workbench and can pass through exposure region It is exposed.
Above-mentioned sided exposure machine, when exposure, the first loading stage is mobile simultaneously to pass through the exposure of exposure region the first part to be exposed of progress Light, the second loading stage load the second part to be exposed, and first loading stage retracts after the completion of the first part exposure to be exposed, the second loading stage First is carried out while moving and carry out by exposure region the exposure of the second part to be exposed, and then expose using the second loading stage First unloading and loading to carrier member on loading stage is not only convenient for realizing automation exposure, and also improves exposure efficiency, Simultaneously without overturning, reduces exposure process, improve exposure accuracy.
Technical solution is illustrated further below:
Loader mechanism further includes the first driver and the second driver in one of the embodiments, and the first driver is used In driving the first loading stage, along movable workbench, the second driver is for driving the second loading stage along movable workbench.
Loader mechanism further includes controller, first sensor and second sensor in one of the embodiments, and first passes Sensor is used to detect the shift position of the first loading stage, and second sensor is for detecting the shift position of the second loading stage, and first Exposure components, the second exposure components, the first driver, the second driver, first sensor and second sensor are and controller It is electrically connected.
The first loading stage is equipped with the first loading part for loading the first part to be exposed in one of the embodiments, the Two loading stages are equipped with the second loading part for loading the second part to be exposed.
The first loading stage is equipped with first sliding groove in one of the embodiments, and workbench is equipped with to cooperate with first sliding groove and move The first dynamic guide rail；Or second loading stage be equipped with pilot hole, workbench is equipped with the second guide rail for cooperating with pilot hole.
The first exposure components include the first exposed part and the second exposed part, the first exposed part in one of the embodiments, Equipped with multiple first light source parts, first light source part be arranged in spacing and sets in a row, and the second exposed part is equipped with multiple second light sources Part, second light source part are arranged in spacing and set in a row, and first light source part is set side by side with second light source part and is in be staggered to set The setting position for setting, making a first light source part is corresponding with the gap position between two second light source parts.
The second exposure components include third exposed part in one of the embodiments, and third exposed part is equipped with multiple thirds Light source component, third light source component are arranged in spacing and set and be set as side by side two rows in a row, and therein one arranges the 3rd light source component and its In it is another ranked third light source component be in be arranged in a staggered manner, make a wherein row a third light source component setting position with it is wherein another Gap position between two third light source components of row is corresponding.
On the other hand, a kind of double-faced exposure method is additionally provided, can be applied to described in any of the above-described a technical solution Sided exposure machine, comprising the following steps:
(S1), the first loading stage is located at the first initial position and loads the first part to be exposed in the first loading stage；
(S2), the second loading stage is located at the second initial position and at the beginning of the second loading stage the second part to be exposed of loading, first Beginning position and the second initial position be located at the two sides of exposure mechanism；
(S3), the first loading stage along movable workbench and passes through exposure region, the first predeterminated position of arrival, the first default position Set the two sides that exposure region is located at the first initial position；And the first exposure components of exposure mechanism and the second exposure group simultaneously Part is exposed and is completed to the first part to be exposed the exposure to the first part to be exposed, obtains the first exposure finished product；
(S4), the first loading stage is back to the first initial position along workbench and unloads the first exposure finished product；
(S5), the second loading stage along movable workbench and passes through exposure region, the second predeterminated position of arrival, the second default position Set the two sides that exposure region is located at the second initial position；And simultaneously the first exposure components and the second exposure components to second to Exposed part is exposed and completes the exposure to the second part to be exposed, obtains the second exposure finished product；And simultaneously in the first loading stage Load the next first part to be exposed；
(S6), the second loading stage is back to the second initial position along workbench and unloads the second exposure finished product；
(S7), (S3) is entered step；And next second part to be exposed is loaded in the second loading stage simultaneously.
Above-mentioned double-faced exposure method carries out the first part to be exposed by the operating process of step (S3) to step (S7) The second part to be exposed is loaded when exposure, and next first part to be exposed is loaded when the second part to be exposed loads, thus It makes full use of time when exposure to be operated, improves exposure efficiency.
In one of the embodiments, in step (S3), the first loading stage along movable workbench and by exposure region, The step of reaching the first predeterminated position is simultaneously, further includes: the position of the first loading stage of first sensor real-time detection is simultaneously fed back to Controller, when the first loading stage moves to the first predeterminated position, controller, which controls the first driver, stops the first loading stage It is mobile；Otherwise, the first loading stage continues along movable workbench；
Or in step (S5), the second loading stage along movable workbench and by exposure region, reach the second predeterminated position Step is simultaneously, further includes: the second loading stage is mobile and triggers second sensor, and second sensor feedback triggering information is to control Device, controller, which controls the second driver, makes the second loading stage stop movement.
In one of the embodiments, before step (S3), further includes: controller receives the first exposure information and second and exposes Optical information and the first illuminated message and second for determining first light source part in the first exposure components respectively based on the first exposure information Second illuminated message of light source component simultaneously determines that the third of third light source component in the second exposure components shines based on the second exposure information Information；In step (S3), based on the first hair when the first exposure components and the second exposure components are exposed the first part to be exposed Optical information, the second illuminated message and third illuminated message are exposed the first part to be exposed.
Fig. 1 is the flow chart of double-faced exposure method in embodiment；
Fig. 2 is the main view of sided exposure machine in embodiment；
Fig. 3 is the left view of sided exposure machine in embodiment；
Fig. 4 is the top view of sided exposure machine in embodiment.
Attached drawing mark explanation:
100, workbench, 110, fixed bracket, 120, exposure region, the 210, first exposure components, the 211, first exposed part, 2111, first light source part, the 212, second exposed part, 2121, second light source part, the 220, second exposure components, 2211, third light source Part, the 310, first loading stage, the 320, second loading stage.
The embodiment of the present invention is described in detail with reference to the accompanying drawing:
It should be noted that it can be directly in another element when alleged element is with another element " fixation " in text Above or there may also be elements placed in the middle.When an element is considered as with another element " connection ", it be can be directly It is connected to another element in succession or may be simultaneously present centering elements.On the contrary, when element is referred to as " directly existing " another element When "upper", intermediary element is not present.Term as used herein "vertical", "horizontal", "left" and "right" and similar table It states for illustrative purposes only, is not meant to be the only embodiment.
Embodiment as shown in Figures 2 to 4, provides a kind of sided exposure machine, including workbench 100, and workbench 100 is set There is exposure through-hole；Exposure mechanism, exposure mechanism include the first exposure components 210 and the second exposure components 220, the first exposure components 210 and second exposure components 220 be respectively arranged on workbench 100 two sides and workbench 100 formed exposure region 120, exposure region 120 are correspondingly arranged with exposure through-hole；And loader mechanism, loader mechanism include the first loading stage 310 and the second loading stage 320, the One loading stage 310 and the second loading stage 320 can be moved along workbench 100 and be exposed by exposure region 120.
When exposure, the first loading stage 310 is mobile and the exposure of the first part to be exposed is carried out by exposure region 120, the second dress Microscope carrier 320 loads the second part to be exposed, and first loading stage 310 retracts after the completion of the first part exposure to be exposed, the second loading stage 320 Move and pass through exposure region 120 carry out the second part to be exposed exposure, and then using the second loading stage 320 expose while into The unloading of first part to be exposed and loading on the first loading stage of row 310 are not only convenient for realizing automation exposure, and also improve Exposure efficiency, while without overturning, reduce exposure process, improves exposure accuracy.
Traditional laser direct-writing exposure machine can only single side exposure, cannot simultaneously double-sided exposure, also needed after having exposed one side It overturns, to carry out the exposure of another side, due to needing to overturn, not only process flow is more, and overturns holding time waste, exposure Low efficiency, and also aligned after overturning, it is easy to influence exposure accuracy because of aligning accuracy problem；Meanwhile the two-sided exposure of tradition Light mostly uses the film to transfer, and film production is same to increase process flow, and film cost of manufacture is high, and the film is after a period of use It must also replace.
In the present embodiment, the first exposure components 210 and the second exposure components 220 are respectively provided at the two sides of workbench 100, work Make platform 100 and is equipped with the exposure through-hole that the light for issuing the second exposure components 220 or the first exposure components 210 passes through, first Exposure components 210 and the second exposure components 220 so as to form an exposure region 120 in the corresponding region of workbench 100, when When the first part to be exposed on first loading stage 310 passes through, the first exposure components 210 and the second exposure components 220 are simultaneously to the The front and back sides of one part to be exposed are exposed, thus the effect realized while exposed；Simultaneously as the second loading stage 320 can also To be moved on workbench 100, so as to be exposed and subsequent unloaded using the first component to be exposed on the first loading stage 310 Unloading and exposure are loaded to the second part to be exposed on the second loading stage 320 when carrying load, to reach to the time Make full use of, exposure efficiency is improved, due to and then avoiding and re-registrating without overturning, to improve exposure accuracy, separately Outside, single exposure is completed, and splices compared to traditional positive and negative rotation and repeatedly the mode exposed, exposure efficiency and exposure accuracy mention significantly It is high.
The middle part of first loading stage 310 and the second loading stage 320 is equipped with loading through-hole, so that the first part to be exposed or Two parts to be exposed can smoothly be such that the first exposure components 210 and the illumination of the second exposure components 220 are incident upon when passing through exposure region 120 First part to be exposed or the second part to be exposed, to be exposed；
Exposure through-hole and exposure region 120, which are correspondingly arranged, refers to make the first exposure components 210 or the second exposure components 220 to send out Light out is by exposure through-hole, to reach exposure region 120, thus the irradiation when the first part to be exposed or the second part to be exposed pass through It is exposed above, those skilled in the art can need specifically to be arranged according to exposure, and which is not described herein again；
First exposure components 210 and the second exposure components 220 are correspondingly arranged, and are arranged between the two in spacing, the first exposure The exposure directions of component 210 are opposite with the exposure directions of the second exposure components 220, to form exposure region in workbench 100 120, those skilled in the art can be specifically arranged as needed, and to meet the needs of double-sided exposure, which is not described herein again.
Further, the first exposure components 210 and the second exposure components 220 are in fixed setting.The first of fixed setting Exposure components 210 and the second exposure components 220 can not move, and set the first exposure components 210 and the second exposure during installation Reciprocal correspondence relationship between component 220, to be exposed in the movement of subsequent first loading stage 310 to the first part to be exposed When, the first exposure components 210 and the second exposure components 220 are simultaneously exposed the front and back sides of the first part to be exposed, and expose Content corresponds to each other, and compared to the case where overturning exposure is needed, not only exposure accuracy is higher, but also exposure efficiency is also higher.
Embodiment as shown in Figure 2 further includes the fixation bracket 110 of fixed setting, there are two fixed bracket 110 is set, the One exposure components 210 and the second exposure components 220 are respectively provided on corresponding fixed bracket 110, to realize what position was fixed Purpose.
Further, fixed bracket 110 is marble crossbeam.
As shown in Fig. 2, the first exposure components 210 are fixed on top, the second exposure components 220 are fixed on lower part, workbench 100 table top is between the first exposure components 210 and the second exposure components 220, the first loading stage 310 and the second loading stage 320 It can be moved left and right along workbench 100, thus by between the first exposure components 210 and the second exposure components 220 Exposure region 120 when, to thereon the first part to be exposed or the second part to be exposed be exposed, realize at the same carry out front and back sides exposure Light and the technical effect without overturning.
On the basis of any of the above-described a technical solution, loader mechanism further includes the first driver and the second driver, and One driver is for driving the first loading stage 310 to move along workbench 100, and the second driver is for driving the second loading stage 320 It is moved along workbench 100.
On the basis of any of the above-described a technical solution, loader mechanism further includes controller, first sensor and the second biography Sensor, first sensor are used to detect the shift position of the first loading stage 310, and second sensor is for detecting the second loading stage 320 shift position, the first exposure components 210, the second exposure components 220, the first driver, the second driver, the first sensing Device and second sensor are electrically connected with controller.
The setting of controller is for accurately controlling the first loading stage 310, the second loading stage 320 and the first exposure components 210 And the second cooperation precision between exposure components 220；Meanwhile the setting of first sensor and second sensor improves The mobile accuracy of one loading stage 310 and the second loading stage 320, to improve the precision of exposure figure.
On the basis of any of the above-described a technical solution, the first loading stage 310 is equipped with for loading the first part to be exposed First loading part, the second loading stage 320 are equipped with the second loading part for loading the second part to be exposed.
First loading part and the second loading part are respectively used to installation the first part to be exposed and the second part to be exposed, when first to The position of exposed part and the second part to be exposed is firm, avoids shifting or tilting in mobile or exposure process, to influence to expose Light efficiency improves exposure accuracy.
On the basis of any of the above-described a technical solution, the first loading stage 310 is equipped with first sliding groove, and workbench 100 is equipped with The first mobile guide rail with first sliding groove cooperation；Or second loading stage 320 be equipped with pilot hole, workbench 100 is equipped with and pilot hole Second guide rail of cooperation.
The setting of first sliding groove and the first guide rail is a kind of embodiment, and first sliding groove and the first guide rail improve the first dress The mobile accuracy of microscope carrier 310, to avoid the first part to be exposed from shifting or tilt in movement or exposure process, to mention High exposure accuracy；The setting of pilot hole and the second guide rail is another embodiment, is played the role of also for improving the The mobile accuracy of two loading stages 320, to improve exposure accuracy.Those skilled in the art can select the first dress of guarantee as needed The set-up mode that microscope carrier 310 or the second loading stage 320 steadily move, the steady shifting of the first loading stage 310 and the second loading stage 320 Dynamic setting structure can identical structure also different structure, which is not described herein again.
On the basis of any of the above-described a technical solution, the first exposure components 210 include that the first exposed part 211 and second exposes Light part 212, the first exposed part 211 are equipped with multiple first light source parts 2111, and first light source part 2111 is arranged in spacing and is set as one Row, the second exposed part 212 are equipped with multiple second light source parts 2121, second light source part 2121 be arranged in spacing and set it is in a row, the One light source component 2111 is set side by side with second light source part 2121 and in the setting for being arranged in a staggered manner, making a first light source part 2111 Gap position between position and two second light source parts 2121 is corresponding.
As shown in figure 4, the first exposure components 210 include the first exposed part 211 and the second exposed part 212, the first exposed part 211 and second exposed part 212 be juxtaposed to the left and righ setting, set that there are six first light source part 2111 and be set as on the first exposed part 211 One row sets on the second exposed part 212 there are six second light source part 2121 and sets in a row, the first exposed part 211 and the second exposure Part 212 is in that the setting height of i.e. the first exposed part 211 is arranged in a staggered manner to be higher than the setting height of the second exposed part 212, to make the First light source part 2111 on one exposed part 211 is respectively between two neighboring second light source part 2121 on the second exposed part 212 Setting position it is corresponding, 2111 exposed portion of first light source part and second light source part in exposure, on the first exposed part 211 Exposure figure is collectively formed in exposed portion splicing between 2121.
As shown in Fig. 2, the fixation bracket 110 in left side is for fixing the first exposure there are two the fixation bracket 110 on top sets Part 211, the fixation bracket 110 on right side is for fixing the second exposed part 212.
On the basis of any of the above-described a technical solution, the second exposure components 220 include third exposed part, third exposed part Equipped with multiple third light source components 2211, third light source component 2211 is arranged in spacing and sets in a row and be set as two rows side by side, wherein One to arrange the 3rd light source component 2211 with another light source component 2211 that ranked third therein be in be arranged in a staggered manner, make one of a wherein row the The setting position of three light source components 2211 is corresponding with the gap position between two third light source components 2211 of wherein another row.
Here give the embodiment of another exposed part: the second exposure components 220 use a third exposed part Form, third exposed part, which is equipped with two, ranked third light source component 2211, and every row sets that there are six third light source components 2211, and two ranked third light Source part 2211 in being arranged in a staggered manner, make wherein one arrange the 3rd light source component 2211 respectively with the two neighboring third light source component of another row Position between 2211 is corresponding, same to realize the effect that splicing exposure is carried out to exposure figure, and structure is more simple, at low cost It is honest and clean.
Embodiment as shown in Figure 1 additionally provides a kind of double-faced exposure method, can be applied to any of the above-described a embodiment The sided exposure machine, comprising the following steps:
(S1), the first loading stage 310 is located at the first initial position and loads the first part to be exposed in the first loading stage 310；
(S2), the second loading stage 320 is located at the second initial position and loads the second part to be exposed in the second loading stage 320, First initial position and the second initial position are located at the two sides of exposure mechanism；
(S3), the first loading stage 310 moves and is passed through along workbench 100 exposure region 120, reaches the first predeterminated position, the One predeterminated position and the first initial position are located at the two sides of exposure region 120；And the first exposure components of exposure mechanism simultaneously 210 and second exposure components 220 exposure to the first part to be exposed is exposed and completed to the first part to be exposed, obtains One exposure finished product；
(S4), the first loading stage 310 is back to the first initial position along workbench 100 and unloads the first exposure finished product；
(S5), the second loading stage 320 moves and is passed through along workbench 100 exposure region 120, reaches the second predeterminated position, the Two predeterminated positions and the second initial position are located at the two sides of exposure region 120；And the first exposure components 210 and second expose simultaneously Optical assembly 220 is exposed and is completed to the second part to be exposed the exposure to the second part to be exposed, obtains the second exposure finished product； And the next first part to be exposed is loaded in the first loading stage 310 simultaneously；
(S6), the second loading stage 320 is back to the second initial position along workbench 100 and unloads the second exposure finished product；
(S7), (S3) is entered step；And the next second part to be exposed is loaded in the second loading stage 320 simultaneously.
By the operating process of step (S3) to step (S7), the second part to be exposed when being exposed the first part to be exposed Be loaded, next first part to be exposed is loaded when the second part to be exposed loads, thus when making full use of exposure when Between operated, improve exposure efficiency.
As shown in Figure 1, entering step (S4) after step (S7), the purpose of following cycle operation is realized, in same time It is interior to carry out double-sided exposure to more parts to be exposed, and exposure accuracy is higher.
Further, in step (S4), when the first loading stage 310 returns, return speed, which is higher than, carries out the first part to be exposed Speed when exposure to be back to the first initial position as early as possible, and initially enters the process of the second part exposure to be exposed, thus real The existing higher technical effect of exposure efficiency；When second loading stage 320 returns similarly, which is not described herein again.
It should be noted that aforementioned step (S1) to step (S7) as needed can appropriate adjustment operation order, such as the One loading stage 310 carries out the first unloading for exposing finished product after being back to the first initial position, carries out the second part to be exposed again later Exposure, in fact, the second part to be exposed can also be started immediately after the first loading stage 310 is back to the first initial position Exposure, and the unloading of the first exposure finished product and the loading of the next first part to be exposed are carried out in exposure process, second loads Similarly, which is not described herein again for the unloading of platform 320 and loading.
Further, in step (S3), move in the first loading stage 310 along workbench 100 and by exposure region 120, arrive The step of up to the first predeterminated position, is simultaneously, further includes: simultaneously feeds back the position of the first loading stage of first sensor real-time detection 310 To controller, when the first loading stage 310 moves to the first predeterminated position, controller, which controls the first driver, makes the first loading stage 310 stop movement；Otherwise, the first loading stage 310 continuation is moved along workbench 100；
Or in step (S5), moved in the second loading stage 320 along workbench 100 and by exposure region 120, arrival second The step of predeterminated position, is simultaneously, further includes: the second loading stage 320 is mobile and triggers second sensor, second sensor feedback touching For photos and sending messages to controller, controller, which controls the second driver, makes the second loading stage 320 stop movement.
Further, before step (S3), further includes: controller receives the first exposure information and the second exposure information, simultaneously Determine the first illuminated message and the second light of first light source part 2111 in the first exposure components 210 respectively based on the first exposure information Second illuminated message of source part 2121 simultaneously determines third light source component 2211 in the second exposure components 220 based on the second exposure information Third illuminated message；In step (S3), the first exposure components 210 and the second exposure components 220 carry out the first part to be exposed The first part to be exposed is exposed based on the first illuminated message, the second illuminated message and third illuminated message when exposure.
In the present embodiment, optionally, the first exposure components 210 and the second exposure components 220 form maskless exposure system (Digital Micromirror Device, abbreviation DMD exposure system), maskless exposure system pass through projection objective for image Disposable exposure, the first light source part 2111 and second light source part 2121 or third light source component of DMD exposure system are realized in amplification 2211 arrangement quantity determines that exposure accuracy is higher according to the size of exposing patterns.
1. a kind of sided exposure machine characterized by comprising
Workbench, the workbench are equipped with exposure through-hole；
Exposure mechanism, the exposure mechanism include the first exposure components and the second exposure components, first exposure components and institute State the second exposure components be respectively arranged on the workbench two sides and the workbench formed exposure region, the exposure region with The exposure through-hole is correspondingly arranged；And
Loader mechanism, the loader mechanism include the first loading stage and the second loading stage, first loading stage and described second Loading stage can be exposed along the movable workbench and by the exposure region.
2. sided exposure machine according to claim 1, which is characterized in that the loader mechanism further include the first driver and Second driver, first driver is for driving first loading stage along the movable workbench, second driving Device is for driving second loading stage along the movable workbench.
3. sided exposure machine according to claim 2, which is characterized in that the loader mechanism further includes controller, first Sensor and second sensor, the first sensor are used to detect the shift position of first loading stage, and described second passes Sensor is used to detect the shift position of second loading stage, first exposure components, second exposure components, described the One driver, second driver, the first sensor and the second sensor are electrically connected with the controller.
4. sided exposure machine according to claim 1, which is characterized in that first loading stage is equipped with for loading first First loading part of part to be exposed, second loading stage are equipped with the second loading part for loading the second part to be exposed.
5. sided exposure machine according to claim 1, which is characterized in that first loading stage is equipped with first sliding groove, institute It states workbench and is equipped with first guide rail mobile with first sliding groove cooperation；
Or second loading stage is equipped with pilot hole, the workbench is equipped with the second guide rail cooperated with the pilot hole.
6. sided exposure machine according to claim 1-5, which is characterized in that first exposure components include the One exposed part and the second exposed part, first exposed part are equipped with multiple first light source parts, and the first light source part is set in spacing It sets and sets in a row, second exposed part is equipped with multiple second light source parts, and the second light source part is arranged and sets in spacing In a row, the first light source part and the second light source part are set side by side and are in be arranged in a staggered manner, make the first light source The setting position of part is corresponding with the gap position between two second light source parts.
7. sided exposure machine according to claim 1-5, which is characterized in that second exposure components include the Three exposed parts, the third exposed part are equipped with multiple third light source components, and the third light source component is arranged and sets in a row in spacing And it is set as two rows side by side, third light source component described in a row therein is set with third light source component described in another row therein in being staggered Set, make one of the wherein row third light source component setting position and wherein between two third light source components of another row Gap position it is corresponding.
8. a kind of double-faced exposure method, it can be applied to such as the described in any item sided exposure machines of claim 1-7, feature exists In, comprising the following steps:
(S1), the first loading stage is located at the first initial position and loads the first part to be exposed in first loading stage；
(S2), the second loading stage is located at the second initial position and loads the second part to be exposed in second loading stage, and described the One initial position and second initial position are located at the two sides of exposure mechanism；
(S3), first loading stage along movable workbench and by the exposure region, reach the first predeterminated position, described the One predeterminated position and first initial position are located at the two sides of the exposure region；And the exposure mechanism simultaneously is described First exposure components and second exposure components are exposed the described first part to be exposed and complete to described first wait expose The exposure of light part obtains the first exposure finished product；
(S4), first loading stage is back to first initial position along the workbench and unloads first exposure Finished product；
(S5), second loading stage along the movable workbench and passes through the exposure region, the second predeterminated position of arrival, institute It states the second predeterminated position and second initial position is located at the two sides of the exposure region；And the first exposure group simultaneously Part and second exposure components are exposed the described second part to be exposed and complete the exposure to the described second part to be exposed Light obtains the second exposure finished product；And next first part to be exposed is loaded in first loading stage simultaneously；
(S6), second loading stage is back to second initial position along the workbench and unloads second exposure Finished product；
(S7), into the step (S3)；And next second part to be exposed is loaded in second loading stage simultaneously.
9. double-faced exposure method according to claim 8, which is characterized in that in the step (S3), in first dress Microscope carrier along the movable workbench and by the exposure region, reach first predeterminated position the step of simultaneously, further includes: The position of first loading stage described in first sensor real-time detection simultaneously feeds back to controller, when first loading stage moves to When first predeterminated position, the controller, which controls the first driver, makes first loading stage stop movement；Otherwise, described First loading stage continues along the movable workbench；
Or in the step (S5), along the movable workbench and pass through the exposure region, arrival institute in second loading stage The step of stating the second predeterminated position is simultaneously, further includes: second loading stage is mobile and triggers the second sensor, described Second sensor feedback triggering information gives the controller, and the controller, which controls the second driver, stops second loading stage Only move.
10. double-faced exposure method according to claim 8 or claim 9, which is characterized in that before the step (S3), further includes: The controller receives the first exposure information and the second exposure information and determines described the respectively based on first exposure information In one exposure components the first illuminated message of first light source part and the second illuminated message of second light source part and be based on described second Exposure information determines the third illuminated message of third light source component in second exposure components；In the step (S3), described When one exposure components and second exposure components are exposed the described first part to be exposed based on first illuminated message, Second illuminated message and the third illuminated message are exposed the described first part to be exposed.
CN201810835176.7A 2018-07-26 2018-07-26 Sided exposure machine and double-faced exposure method CN108983556A (en)
CN201810835176.7A CN108983556A (en) 2018-07-26 2018-07-26 Sided exposure machine and double-faced exposure method
PCT/CN2018/122482 WO2020019651A1 (en) 2018-07-26 2018-12-20 Novel double-sided digital exposure system and work process
CN108983556A true CN108983556A (en) 2018-12-11
ID=64551488
CN (1) CN108983556A (en)
WO (1) WO2020019651A1 (en)
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