CN204354209U - A kind of borehole drill construction of image projection location - Google Patents
A kind of borehole drill construction of image projection location Download PDFInfo
- Publication number
- CN204354209U CN204354209U CN201420761488.5U CN201420761488U CN204354209U CN 204354209 U CN204354209 U CN 204354209U CN 201420761488 U CN201420761488 U CN 201420761488U CN 204354209 U CN204354209 U CN 204354209U
- Authority
- CN
- China
- Prior art keywords
- drill
- impeller
- reflection unit
- image projection
- camera
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Drilling And Boring (AREA)
Abstract
The utility model discloses the borehole drill construction of a kind of image projection location, comprise can synchronous horizontal motion a reflection unit and a guide plate, and to be promoted by one first cylinder and can a drill of synchronously lengthwise movement and an impeller, described guide plate is promoted by impeller and makes its transverse movement synchronous with the lengthwise movement of impeller, and described reflection unit is for reflexing to the camera lens of a camera by the image of position immediately below drill.Because vertically moving of drill in the utility model is synchronously carried out with the transverse shifting of reflection unit, effectively reduce the operating time, improve production efficiency, owing to make use of reflection unit, the image below drill is reflexed in camera simultaneously, thus do not need travelling shot device, save space, the positioning precision of camera can have been ensured simultaneously, and prevent camera from damaging, improve service life.
Description
Technical field
The utility model relates to a kind of circuit boring mechanism, particularly relates to the borehole drill construction of a kind of image projection location.
Background technology
Flexible circuit board (FPCB) forms primarily of flexible insulating base material, contact agent and copper conductor, there is flexible, and profile can be changed flexibly according to product size, space and shape, relatively traditional PCB hard circuit board has significant advantage, and therefore the use of flexible circuit board is increasingly extensive.The major function of circuit board is electrically connected electronic component each on plate, and increasingly sophisticated along with electronic equipment, the part needed also gets more and more, circuit on circuit board and part also more and more intensive, in order to part is fixed on circuit boards, by its pin welding in the wiring of circuit board, therefore must need to hole to allow pin pass circuit board on circuit boards and weld to another side.When holing to circuit board, needing quite high precision, if there is deviation, then circuit board can be made cannot to reach the function of expection, even cause short circuit and damage circuit board.
General needs before holing to circuit board first gets out several wad cutter on circuit boards accurately as locating hole, again circuit board is placed on drilling machine, insert wad cutter with latch circuit board accurately to be located and is fixed on the board of drilling machine, then get out the via of interlayer circuit and the fixing hole for soldering part successively on circuit boards.Punching and boring two kinds of processing modes can be adopted at present to the boring of circuit board, but punching can only be applicable to the circuit board of below 5mm, and the thickness of multi-layer circuit boards is usually larger, part reaches more than 10mm even, the mode perforate of punching cannot be utilized, therefore, process wad cutter in the mode of holing and become main flow gradually.In addition, because wad cutter precision is directly connected to the positional precision in other holes, so the tram of circuit board must be found before boring to offer wad cutter, one camera is normally first placed on immediately below drill bit by current locate mode, the movable workbench of circuit board to be placed is behind tram, remove camera again and carry out bore operation, like this because camera often needs mobile, easy generation deviation, also easily damage, and just can hole because camera first will be removed after having good positioning, add process time, reduce production efficiency.
Utility model content
In order to solve the problem, the borehole drill construction of image projection location that the purpose of this utility model is to provide a kind of not fragile camera, can enhances productivity.
The utility model is the technical scheme that its technical problem of solution adopts:
A kind of borehole drill construction of image projection location, comprise can synchronous horizontal motion a reflection unit and a guide plate, and to be promoted by one first cylinder and can a drill of synchronously lengthwise movement and an impeller, described guide plate is promoted by impeller and makes its transverse movement synchronous with the lengthwise movement of impeller, and described reflection unit is for reflexing to the camera lens of a camera by the image of position immediately below drill.
Preferably, described guide plate is provided with the guiding face tilted matched with described impeller, and described guide plate is also connected with a back-moving spring.
Optionally, described guide plate is provided with the guide channel tilted matched with described impeller, and described impeller is plugged in this guide channel.
Preferably, described reflection unit comprises first speculum corresponding with drill and second speculum corresponding with camera, and the first described speculum all tilts with the second speculum and to be parallelly oppositely arranged.
Preferably, also comprise a support body, described support body is provided with a cross slide way and at least one longitudinal displacement guide rail, one displacement plate to be located on described displacement guide rail and longitudinally can be moved back and forth along this displacement guide rail by described first air cylinder driven, and described drill and impeller are located on described displacement plate; A connection piece is located at also can along this cross slide way traverse motion on described cross slide way, and described guide plate and reflection unit are all fixed on this connector.
Preferably, described displacement plate is also provided with the adjustment guide rail of a longitudinal direction, an adjustment plate to be located on this adjustment guide rail and to be located at the second air cylinder driven on described displacement plate by one and can to vertically move by relative displacement plate, and described drill is located on this adjustment plate.
As improvement, described displacement plate is also provided with one and is positioned at positioning table below described drill, this positioning table is provided with a positioning through hole matched with the drill bit of described drill.
Preferably, described positioning table is connected on support body by locating support, and is connected by elastomeric element between positioning table with this locating support.
Preferably, described reflection unit is also provided with one and can be resisted against the side of described positioning table for limiting the locating convex block of the transverse shifting of described reflection unit.
The beneficial effects of the utility model are: make its transverse movement synchronous with the lengthwise movement of impeller because guide plate in the utility model is promoted by impeller, and then make the lengthwise movement of drill synchronous with the transverse movement of reflection unit, when drill rises, this reflection unit just can move to immediately below drill by synchronous horizontal like this, and the image immediately below drill is reflexed in camera position, after location completes, drill declines, reflection unit synchronous horizontal under the drive of impeller and guide plate moves to the drill that staggers, hole for drill, location and bore operation can be repeated successively, because vertically moving of drill is synchronously carried out with the transverse shifting of reflection unit, effectively reduce the operating time, improve production efficiency, owing to make use of reflection unit, the image below drill is reflexed in camera simultaneously, thus do not need travelling shot device, save space, the positioning precision of camera can be ensured simultaneously, and prevent camera from damaging, improve service life.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
Fig. 1 is overall structure figure of the present utility model;
Fig. 2 is the overall structure figure at another visual angle of the utility model;
Fig. 3 is the structural representation under the utility model positioning operation state;
Fig. 4 is the structural representation under the utility model bore operation state;
Fig. 5 be in the utility model the second cylinder fall after structural representation;
Fig. 6 is the structural representation in the utility model after the second cylinder rise.
Detailed description of the invention
Referring to figs. 1 through Fig. 6, a kind of borehole drill construction of image projection location, comprise a support body 10, support body 10 is provided with a camera 14, the displacement guide rail 11 of two longitudinal directions and a cross slide way 12, one displacement plate 20 to be arranged on displacement guide rail 11 and to be connected with the piston rod of first cylinder 13 be fixed on support body 10, impeller 25 is fixed on displacement plate 20, can to be promoted by the first cylinder 13 with displacement plate 20 and longitudinally move back and forth, displacement plate 20 is provided with adjustment guide rail 21 and one second cylinder 23 of a longitudinal direction, one adjustment plate 24 to be arranged on this adjustment guide rail 21 and to be connected with the piston rod of the second cylinder 23, drill 22 is fixed on adjustment plate 24, can to be promoted by the second cylinder 23 with adjustment plate 24 and relative displacement plate 20 vertically move.Utilize the second cylinder 23 can adjust separately the position of drill 22, can flexible modulation drilling depth, and drill 22 can be raised up to more spacious place when needs keep in repair drill 22, be convenient to maintenance and more bit change 221.
Cross slide way 12 is provided with a connection piece 30, the two ends of connector 30 are fixed with guide plate 31 and a reflection unit 32 respectively, guide plate 31 is provided with the guiding face 311 that is resisted against the inclination on impeller 25, the corresponding synchronous horizontal of guide plate 31 can be promoted by this guiding face 311 when impeller 25 is promoted by the first cylinder 13 and vertically moves to move, and then promote to move with reflection unit 32 synchronous horizontal that guide plate 31 is connected by connector 30, guide plate 31 is also connected with a back-moving spring 33, the other end of this back-moving spring 33 is fixed on support body 10.This back-moving spring 33 can coordinate impeller 25 to promote guide plate 31 traverse motion, guiding face 311 can certainly be replaced with the guide channel of an inclination, impeller 25 is plugged in guide channel, makes impeller 25 can promote separately guide plate 31 traverse motion.
Have employed support body 10, displacement plate 20 and adjustment plate 24 in the present embodiment fix and all parts is installed, other modes such as support can certainly be adopted to be fixed and to install, or be directly fixed on drilling machine.Utilizing the movement of guide rail to drill 22 and reflection unit 32 to carry out guiding, that it can be made to move is more stable, ensures the precision of boring.
The side of guide plate 31 also can be provided with an adjustable lever, can carry out spacing to the traverse range of guide plate 31 as required.
Reflection unit 32 adopts the structure similar with periscope, comprise first speculum 321 corresponding with drill 22 and second speculum 322 corresponding with camera 14, two speculums all tilt and to be parallelly oppositely arranged, when the second speculum 322 moves to immediately below drill 22 with guide plate 31, first speculum 321 is also positioned at immediately below camera 14 simultaneously, to be reflexed on the camera lens of camera 14 by the image immediately below drill 22.Certainly, this reflection unit 32 also can adopt other common structures such as camera, curved mirror, is not limited thereto.
Make its transverse movement synchronous with the lengthwise movement of impeller 25 because guide plate 31 is promoted by impeller 25, and then make the lengthwise movement of drill 22 synchronous with the transverse movement of reflection unit 32, when drill 22 rises, this reflection unit 32 just can move to immediately below drill 22 by synchronous horizontal like this, and the image immediately below drill 22 is reflexed in the camera lens of camera 14 and position, after location completes, drill 22 declines, reflection unit 32 synchronous horizontal under the drive of impeller 25 and guide plate 31 moves to the drill 22 that staggers, hole for drill 22, location and bore operation can be repeated successively, because vertically moving of drill 22 is synchronously carried out with the transverse shifting of reflection unit 32, effectively reduce the operating time, improve production efficiency, owing to make use of reflection unit 32, the image below drill 22 is reflexed in camera 14 simultaneously, thus do not need travelling shot device 14, save space, the positioning precision of camera 14 can be ensured simultaneously, and prevent camera 14 from damaging, improve service life.
Also be provided with a positioning table 29 immediately below drill 22, the middle part of this positioning table 29 offers the positioning through hole matched with the drill bit 221 of drill 22, utilizes this positioning through hole can accurately locate drill bit 221, ensures the precision of boring; Simultaneously, this positioning table 29 is connected with displacement plate 20 by locating support 26, positioning table 29 is connected by elastomeric element 27 with locating support 26, like this, when drill 22 declines, positioning table 29 declines thereupon and compresses circuit board, drill bit 221 continues decline and carries out bore operation afterwards, can prevent circuit board from vibrating, ensure borehole accuracy, after having holed, drill bit 221 exits in the process of circuit board simultaneously, and under the effect of elastomeric element 27, this positioning table 29 still can compress the surface of circuit board, effectively can prevent burr, improve the quality of products.This elastomeric element 27 is generally spring, and spring inner or outside are also provided with lead 28, to ensure that positioning table 29 can not depart from drill 22.
Reflection unit 32 can also be set up a locating convex block 323, when the second speculum 322 on reflection unit 32 moves to immediately below drill bit 221, this locating convex block 323 is just resisted against the side of positioning table 29, can position the transverse shifting of reflection unit 32, ensure that it normally uses, reduce fault.
The foregoing is only preferred embodiments of the present utility model, as long as the technical scheme realizing the utility model object with basic same approach all belongs within protection domain of the present utility model.
Claims (9)
1. the borehole drill construction of an image projection location, it is characterized in that: comprise can synchronous horizontal motion a reflection unit (32) and a guide plate (31), and to be promoted by one first cylinder (13) and can the drill (22) of synchronously lengthwise movement and an impeller (25), described guide plate (31) is promoted by impeller (25) and makes its transverse movement synchronous with the lengthwise movement of impeller (25), and described reflection unit (32) is for reflexing to the camera lens of a camera (14) by the image of position immediately below drill (22).
2. the borehole drill construction of a kind of image projection location according to claim 1, it is characterized in that: described guide plate (31) is provided with the guiding face tilted (311) matched with described impeller (25), described guide plate (31) is also connected with a back-moving spring (33).
3. the borehole drill construction of a kind of image projection location according to claim 1, it is characterized in that: described guide plate (31) is provided with the guide channel tilted matched with described impeller (25), described impeller (25) is plugged in this guide channel.
4. the borehole drill construction of a kind of image projection location according to claim 1, it is characterized in that: described reflection unit (32) comprises first speculum (321) corresponding with drill (22) and second speculum (322) corresponding with camera (14), described the first speculum (321) and the second speculum (322) all tilt and to be parallelly oppositely arranged.
5. the borehole drill construction of a kind of image projection location according to claim 1, it is characterized in that: also comprise a support body (10), described support body (10) is provided with a cross slide way (12) and at least one longitudinal displacement guide rail (11), one displacement plate (20) is located at described displacement guide rail (11) and is gone up and driven by described first cylinder (13) and longitudinally can move back and forth along this displacement guide rail (11), and described drill (22) and impeller (25) are located on described displacement plate (20); A connection piece (30) is located at described cross slide way (12) above also can along this cross slide way (12) traverse motion, and described guide plate (31) and reflection unit (32) are all fixed on this connector (30).
6. the borehole drill construction of a kind of image projection location according to claim 5, it is characterized in that: the adjustment guide rail (21) described displacement plate (20) being also provided with a longitudinal direction, one adjustment plate (24) is located at this adjustment guide rail (21) and is gone up and driven by second cylinder (23) be located on described displacement plate (20) and can vertically move by relative displacement plate (20), and described drill (22) is located on this adjustment plate (24).
7. the borehole drill construction of a kind of image projection location according to claim 5, it is characterized in that: described displacement plate (20) is also provided with the positioning table (29) that is positioned at described drill (22) below, this positioning table (29) is provided with a positioning through hole matched with the drill bit (221) of described drill (22).
8. the borehole drill construction of a kind of image projection location according to claim 7, it is characterized in that: described positioning table (29) is connected on support body (10) by locating support (26), and be connected by elastomeric element (27) between positioning table (29) with this locating support (26).
9. the borehole drill construction of a kind of image projection location according to claim 7, is characterized in that: described reflection unit (32) is also provided with one and can be resisted against the side of described positioning table (29) for limiting the locating convex block (323) of the transverse shifting of described reflection unit (32).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420761488.5U CN204354209U (en) | 2014-12-05 | 2014-12-05 | A kind of borehole drill construction of image projection location |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420761488.5U CN204354209U (en) | 2014-12-05 | 2014-12-05 | A kind of borehole drill construction of image projection location |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204354209U true CN204354209U (en) | 2015-05-27 |
Family
ID=53255702
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420761488.5U Withdrawn - After Issue CN204354209U (en) | 2014-12-05 | 2014-12-05 | A kind of borehole drill construction of image projection location |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204354209U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104493891A (en) * | 2014-12-05 | 2015-04-08 | 中山欣刚科技设备有限公司 | Drilling mechanism for image projection positioning |
-
2014
- 2014-12-05 CN CN201420761488.5U patent/CN204354209U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104493891A (en) * | 2014-12-05 | 2015-04-08 | 中山欣刚科技设备有限公司 | Drilling mechanism for image projection positioning |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN204584809U (en) | A kind ofly clamp assembly for drilling machine | |
CN106238773B (en) | A kind of pcb board exempts from clamping continuous drilling equipment | |
CN210023586U (en) | Automatic pin shearing machine | |
US20140244022A1 (en) | Digital control processing device | |
CN103338624A (en) | Polyfunctional positioning device for PCB for insert-in machine | |
CN204354209U (en) | A kind of borehole drill construction of image projection location | |
CN104493891A (en) | Drilling mechanism for image projection positioning | |
CN203817555U (en) | Wire electrode stabilizing apparatus | |
CN102738686A (en) | Mold apparatus for separating flexible printed circuit | |
CN109262242B (en) | Bearing press-fitting equipment and steering gear production system | |
CN108177191B (en) | Punching platform for processing circuit board | |
CN103338625A (en) | Component inserter with double overhead machine heads | |
CN211278698U (en) | Quick drilling device is used in processing of PCB board | |
CN101959401B (en) | Correcting device of feeder | |
CN103920906A (en) | Drilling equipment used for drilling holes in two ends of rack | |
CN201479538U (en) | Feeder calibration device | |
CN211028618U (en) | Laser processing device for PCB | |
CN211360980U (en) | Brush silk automatic welder | |
CN210308149U (en) | Punching device for processing circuit board | |
CN208133910U (en) | Device for manufacturing circuit by using lining plate engraving method | |
CN105207004A (en) | Electric power supply unit provided with guide rod and alarm apparatus | |
CN110695551A (en) | Laser processing device for PCB | |
CN204795985U (en) | PCB board mounting panel | |
CN203761758U (en) | Power module and electronic device | |
CN109465871A (en) | A kind of pcb board cutting on line device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150527 Effective date of abandoning: 20170707 |
|
AV01 | Patent right actively abandoned |