CN216183899U - Ink jet numbering machine constructs for SMT chip mounter - Google Patents
Ink jet numbering machine constructs for SMT chip mounter Download PDFInfo
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- CN216183899U CN216183899U CN202122696499.2U CN202122696499U CN216183899U CN 216183899 U CN216183899 U CN 216183899U CN 202122696499 U CN202122696499 U CN 202122696499U CN 216183899 U CN216183899 U CN 216183899U
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- ink jet
- jet numbering
- numbering machine
- spraying mechanism
- code spraying
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Abstract
The utility model belongs to the technical field of chip mounter accessories, and particularly relates to a code spraying mechanism for an SMT chip mounter, which comprises a slide rail mounting part and a code spraying mechanism body, wherein two inserting clamping bulges used for mounting and positioning the code spraying mechanism body are fixedly connected to the outer side of the code spraying mechanism body; through embedding voussoir joint in the inboard of embedding draw-in groove, and the outside that anti-activity locating pin then is located the connection cassette receives the separation, lateral displacement can not appear after making the installation between ink jet numbering machine body and the slide rail installed part, guarantee the installation reliability, and because anti-activity locating pin is located the outside setting of connecting the cassette, operating personnel only need press down anti-activity locating pin and promote anti-activity locating pin and slide during the dismantlement, make the embedding voussoir deviate from the back fast and pull up the ink jet numbering machine body and can realize connecting the separation dismantlement between cassette and the ink jet numbering machine body from the inboard of embedding draw-in groove, guarantee the later stage and tear the operating personnel convenience when getting to the ink jet numbering machine body of different specifications open.
Description
Technical Field
The utility model belongs to the technical field of parts of chip mounters, and particularly relates to a code spraying mechanism for an SMT chip mounter.
Background
A chip mounter is mainly a device for accurately placing surface-mounted components on a PCB pad by moving a mounting head.
The mode that current chip mounter spouts a yard aircraft nose adopted the spiro union installation usually is fixed in the drive slide rail, because the shower nozzle needs the later stage to change according to the required sign indicating number specification of different specification materials, this kind of mounting means is not convenient for tear open the yard aircraft nose fast and gets, has consequently reduced suitability and installation convenience.
SUMMERY OF THE UTILITY MODEL
The utility model provides a code spraying mechanism for an SMT chip mounter, which has the characteristic of convenience in mounting and dismounting.
The utility model provides the following technical scheme: the utility model provides a SMT chip mounter is with spouting ink jet numbering machine constructs, includes slide rail installed part and spouts ink jet numbering machine structure body, spout two outside fixedly connected with of ink jet numbering machine structure body and be used for spout the grafting card of ink jet numbering machine structure body installation location protruding, two the protruding symmetric distribution that is of grafting card, slide rail installed part fixedly connected with the connection cassette of the protruding looks adaptation embedding joint of grafting card, the inboard of spouting ink jet numbering machine structure body is equipped with locating component, locating component includes embedding voussoir and anti-activity locating pin, the embedding voussoir with anti-activity locating pin all runs through the grafting card is protruding, just the one end of embedding voussoir with the inner wall block of connecting the cassette.
The connecting clamping seat is provided with an embedded clamping groove, and one end of the embedded wedge block is located on the inner side of the embedded clamping groove.
The embedded wedge block and the anti-moving positioning pin are vertically and longitudinally distributed, and the embedded wedge block and the anti-moving positioning pin are fixedly connected through an anti-falling clamping block.
The anti-falling clamping block is connected to the inner side of the inserting clamping protrusion in a sliding mode.
The diameter of the anti-falling clamping block is larger than the inner diameter of the opening end of the inserting clamping protrusion.
Two compression springs are fixedly connected between the embedded wedge block and the inner wall of the plug-in clamping protrusion.
Wherein, one side of the embedding wedge block is provided with a guide inclined plane.
The utility model has the beneficial effects that: through embedding voussoir joint in the inboard of embedding draw-in groove, and the outside that anti-activity locating pin then is located the connection cassette receives the separation, lateral displacement can not appear after making the installation between ink jet numbering machine body and the slide rail installed part, guarantee the installation reliability, and because anti-activity locating pin is located the outside setting of connecting the cassette, operating personnel only need press down anti-activity locating pin and promote anti-activity locating pin and slide during the dismantlement, make the embedding voussoir deviate from the back fast and pull up the ink jet numbering machine body and can realize connecting the separation dismantlement between cassette and the ink jet numbering machine body from the inboard of embedding draw-in groove, guarantee the later stage and tear the operating personnel convenience when getting to the ink jet numbering machine body of different specifications open.
The parts of the device not involved are the same as or can be implemented using prior art.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a front sectional view of the present invention;
FIG. 3 is an enlarged view of portion A of FIG. 2;
FIG. 4 is a schematic structural diagram of a positioning assembly according to the present invention.
In the figure: 1. a slide rail mount; 2. a code spraying mechanism body; 21. inserting and connecting the clamping protrusions; 3. connecting the card holder; 31. embedding the card into the card slot; 4. a positioning assembly; 41. embedding a wedge block; 411. a compression spring; 42. anti-moving positioning pins; 43. and (4) an anti-falling clamping block.
Detailed Description
Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a SMT chip mounter is with spouting ink jet numbering machine constructs, including slide rail installed part 1 and spout ink jet numbering machine structure body 2, spout two grafting card protruding 21 that are used for spouting ink jet numbering machine structure body 2 installation location of the outside fixedly connected with of ink jet numbering machine structure body 2, two grafting card protruding 21 are symmetric distribution, the connection cassette 3 of the protruding 21 looks adaptation embedding joints of slide rail installed part 1 fixedly connected with and grafting card, the inboard of spouting ink jet numbering machine structure body 2 is equipped with locating component 4, locating component 4 is including embedding voussoir 41 and anti-activity locating pin 42, embedding voussoir 41 and anti-activity locating pin 42 all run through grafting card protruding 21, and the one end of embedding voussoir 41 and the inner wall block of connecting cassette 3.
In this embodiment: when the code spraying mechanism body 2 and the code spraying mechanism body 2 are installed, the mobile code spraying along an external driving slide rail is realized, when the code spraying mechanism body 1 and the code spraying mechanism body 2 are installed, the rapid alignment between the slide rail installation part 1 and the code spraying mechanism body 2 is realized through the mutually adaptive clamping of the inserting clamping protrusion 21 and the connecting clamping seat 3, the transverse and longitudinal limiting effect on the code spraying mechanism body 2 is realized after the inserting clamping protrusion 21 and the connecting clamping seat 3 are clamped, the swinging displacement of the installed code spraying mechanism body 2 is avoided, and after the inserting clamping protrusion 21 enters the inner side of the connecting clamping seat 3, the inserting clamping protrusion 21 cannot move from the connecting clamping seat 3 through the clamping of the embedded wedge block 41 and the connecting clamping seat 3, and the bottom wall of the connecting clamping seat 3 is blocked when the code spraying mechanism body 2 drives the inserting clamping protrusion 21 to move up and down through the arrangement of the anti-moving positioning pin 42, so as to assist the anti-separation positioning effect on the inserting clamping protrusion 21, thereby ensuring stability between the plug-in card projection 21 and the connection card holder 3.
The connecting clamping seat 3 is provided with an embedded clamping groove 31, and one end of the embedded wedge block 41 is positioned at the inner side of the embedded clamping groove 31; because the roof of embedding voussoir 41 receives embedding draw-in groove 31 spacing after embedding draw-in groove 31 and the mutual joint between embedding voussoir 41, make the protruding 21 of grafting card can not appear the displacement that breaks away from of longitudinal direction after the joint between connection cassette 3 to guarantee installation stability.
The embedded wedge block 41 and the anti-moving positioning pin 42 are vertically and longitudinally distributed, and the embedded wedge block 41 and the anti-moving positioning pin 42 are fixedly connected through an anti-falling clamping block 43; after the embedded wedge block 41 and the anti-moving positioning pin 42 are connected through the anti-falling clamping block 43, an operator can press the anti-moving positioning pin 42 externally to synchronously take in the embedded wedge block 41 and the anti-moving positioning pin 42 to the inner side of the inserting clamping boss 21, at the moment, the limit of the embedded wedge block 41 and the anti-moving positioning pin 42 can be synchronously released, and the operation of separating the inserting clamping boss 21 from the connecting clamping seat 3 in the later period is facilitated.
The anti-falling fixture block 43 is connected to the inner side of the insertion clamping protrusion 21 in a sliding manner, and the diameter of the anti-falling fixture block 43 is larger than the inner diameter of the opening end of the insertion clamping protrusion 21; the anti-falling clamping block 43 plays a role in limiting the sliding of the embedded wedge 41, so that the sliding path of the embedded wedge 41 is always in a straight line, the embedded wedge 41 and the embedded clamping groove 31 are conveniently and quickly aligned, and the embedded wedge 41 and the anti-moving positioning pin 42 cannot be directly separated from the inner side of the insertion clamping protrusion 21 when sliding to a limit distance.
Two compression springs 411 are fixedly connected between the embedded wedge block 41 and the inner wall of the insertion clamping boss 21, and one side of the embedded wedge block 41 is provided with a guide inclined plane; when pushing down the direction inclined plane of embedding voussoir 41 and the inner wall contact of connecting cassette 3 with the inboard joint of connecting cassette 3 with grafting card arch 21, embedding voussoir 41 receives the inner wall extrusion of connecting cassette 3 gradually and promotes anticreep fixture block 43 and slide to the inboard of grafting card arch 21, compression spring 411 receives the propelling movement pressure of anticreep fixture block 43 and contracts this moment, restore to the throne after embedding voussoir 41 and embedding draw-in groove 31 counterpoint through compression spring 411's elasticity and automatic propelling movement embedding voussoir 41 joint in embedding draw-in groove 31, need not the manual adjustment of operating personnel, thereby the installation procedure has been simplified, it is convenient to the change installation of ink jet numbering mechanism body 2 in the later stage.
The working principle and the using process of the utility model are as follows: when the code spraying mechanism is installed, firstly, the code spraying mechanism body 2 is inserted into a position between two connecting clamping seats 3, at the moment, the inner wall of the connecting clamping seat 3 pushes the anti-falling clamping block 43 to slide towards the inner side of the inserting clamping projection 21 due to the contact and extrusion with the embedded wedge block 41, the compression spring 411 contracts under the pressure until the inserting clamping projection 21 completely enters the inner side of the connecting clamping seat 3, at the moment, the compression spring 411 extends due to no longer being subjected to the pressure, so that the anti-falling clamping block 43 is pushed to move towards the inner wall of the connecting clamping seat 3, the embedded wedge block 41 is clamped at the inner side of the inserting clamping groove 31, the anti-movable positioning pin 42 is positioned at the outer side of the connecting clamping seat 3 and is blocked, the code spraying mechanism body 2 cannot generate transverse displacement after being installed, the installation reliability is ensured, and because the anti-movable positioning pin 42 is positioned at the outer side of the connecting clamping seat 3, an operator only needs to press the anti-movable positioning pin 42 to push the anti-falling clamping block 43 to slide when the clamping seat is disassembled, make embedding voussoir 41 deviate from back pull-up ink jet numbering machine body 2 fast from the inboard of embedding draw-in groove 31 and can realize connecting the separation dismantlement between cassette 3 and the ink jet numbering machine body 2, guarantee the later stage and tear open the operating personnel convenience when getting to the ink jet numbering machine body 2 of different specifications.
Claims (7)
1. The utility model provides a SMT chip mounter is with spouting ink jet numbering machine constructs, includes slide rail installed part and spouts ink jet numbering machine structure body, spout two outside fixedly connected with of ink jet numbering machine structure body and be used for spout the grafting card of ink jet numbering machine structure body installation location protruding, two the protruding symmetric distribution that is of grafting card, slide rail installed part fixedly connected with the connection cassette of the protruding looks adaptation embedding joint of grafting card, the inboard of spouting ink jet numbering machine structure body is equipped with locating component, locating component includes embedding voussoir and anti-activity locating pin, the embedding voussoir with anti-activity locating pin all runs through the grafting card is protruding, just the one end of embedding voussoir with the inner wall block of connecting the cassette.
2. The code spraying mechanism for the SMT chip mounter according to claim 1, wherein: the connecting clamping seat is provided with an embedded clamping groove, and one end of the embedded wedge block is positioned at the inner side of the embedded clamping groove.
3. The code spraying mechanism for the SMT chip mounter according to claim 1, wherein: the embedded wedge block and the anti-moving positioning pin are vertically and longitudinally distributed, and the embedded wedge block and the anti-moving positioning pin are fixedly connected through an anti-falling clamping block.
4. The code spraying mechanism for the SMT chip mounter according to claim 3, wherein: the anti-falling clamping block is connected to the inner side of the inserting clamping protrusion in a sliding mode.
5. The code spraying mechanism for the SMT chip mounter according to claim 4, wherein: the diameter size of the anti-falling clamping block is larger than the inner diameter of the opening end of the inserting clamping protrusion.
6. The code spraying mechanism for the SMT chip mounter according to claim 1, wherein: two compression springs are fixedly connected between the embedded wedge block and the inner wall of the inserting clamping protrusion.
7. The code spraying mechanism for the SMT chip mounter according to claim 1, wherein: one side of the embedded wedge block is provided with a guide inclined plane.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122696499.2U CN216183899U (en) | 2021-11-05 | 2021-11-05 | Ink jet numbering machine constructs for SMT chip mounter |
Applications Claiming Priority (1)
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CN202122696499.2U CN216183899U (en) | 2021-11-05 | 2021-11-05 | Ink jet numbering machine constructs for SMT chip mounter |
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CN216183899U true CN216183899U (en) | 2022-04-05 |
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CN202122696499.2U Active CN216183899U (en) | 2021-11-05 | 2021-11-05 | Ink jet numbering machine constructs for SMT chip mounter |
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2021
- 2021-11-05 CN CN202122696499.2U patent/CN216183899U/en active Active
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