CN204206629U - The automated exchanged cutter mechanism of chip mounter - Google Patents

The automated exchanged cutter mechanism of chip mounter Download PDF

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Publication number
CN204206629U
CN204206629U CN201420334603.0U CN201420334603U CN204206629U CN 204206629 U CN204206629 U CN 204206629U CN 201420334603 U CN201420334603 U CN 201420334603U CN 204206629 U CN204206629 U CN 204206629U
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CN
China
Prior art keywords
chip mounter
tongue
cushion block
groove
baffle
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Active
Application number
CN201420334603.0U
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Chinese (zh)
Inventor
李淋元
韦寿猛
王辉
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangzhou Yi Bei Tuo Automation Technology Co. Ltd.
Original Assignee
GUANGZHOU ETOP ELECTRONIC TECHNOLOGY Co Ltd
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Priority to CN201420334603.0U priority Critical patent/CN204206629U/en
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Abstract

The utility model discloses the automated exchanged cutter mechanism of chip mounter, comprise chip mounter workbench, lateral cylinder, the first baffle plate coordinated with this lateral cylinder, longitudinal cylinder, the second baffle coordinated with this longitudinal cylinder and the die frame for clamping mold; Lateral cylinder, the first baffle plate, longitudinal cylinder, second baffle and die frame are located on chip mounter workbench; Lateral cylinder and the first baffle plate match clamping mold frame side, and longitudinal cylinder and second baffle match clamping mold frame end face, thus realize clamping mold frame on chip mounter workbench.The utility model adopts above structure, realizes the automated exchanged cutter to mould holder, mould by longitudinal cylinder and lateral cylinder, reduces dependent manual operation, simple to operate, realize automation, handled easily, enhance productivity, and adopt above structure, manufacture simple, cost is low.

Description

The automated exchanged cutter mechanism of chip mounter
Technical field
The utility model relates to clamping mechanism technical field, is specifically related to the automated exchanged cutter mechanism of chip mounter.
Background technology
Current treating, in paster workpiece feeding chip mounter, is all the mode adopting manual clamping, relies on and adjust clamping manually.Labor intensive, production efficiency is low, complicated operation.And the front mould entering chip mounter paster for clipping workpiece, be all entered in chip mounter by clamping separately one by one, cause feeding, pouring time long; And at mould after entering chip mounter, chip mounter all needs again to mould location, so that paster at every turn; This just causes paster production efficiency low, and length consuming time is unfavorable for the raising of production efficiency.
Utility model content
The purpose of this utility model is the automated exchanged cutter mechanism disclosing chip mounter, and solve the manual clamping mold of existing chip mounter, labor intensive, production efficiency is low, complicated operation; Single row mould charging, the problem that production efficiency is low.
For achieving the above object, the utility model adopts following technical scheme:
The automated exchanged cutter mechanism of chip mounter, comprises chip mounter workbench, lateral cylinder, the first baffle plate coordinated with this lateral cylinder, longitudinal cylinder, the second baffle coordinated with this longitudinal cylinder and the die frame for clamping mold; Lateral cylinder, the first baffle plate, longitudinal cylinder, second baffle and die frame are located on chip mounter workbench; Lateral cylinder and the first baffle plate match clamping mold frame side, and longitudinal cylinder and second baffle match clamping mold frame end face, thus realize clamping mold frame on chip mounter workbench.
Further, described chip mounter workbench and the rectangular structure of described die frame; The movable axis of described lateral cylinder stretches along the axis direction X-axis of described chip mounter workbench, and the movable axis of described longitudinal cylinder stretches along the radial direction Y-axis of chip mounter workbench.
Further, also comprise longitudinal cylinder block, described longitudinal cylinder is arranged on described chip mounter workbench by longitudinal cylinder block; The movable axis of longitudinal cylinder press against the upper position of described die frame end face.
Further, described die frame comprise rectangular structure base plate, be located at the long limit of base plate side connecting plate, be located at the first fixed block of base plate first minor face and be located at the second fixed block of base plate second minor face; The first tongue-and-groove being used for clamping mould first end is formed on the top of the first fixed block, and the second fixed block forms the second tongue-and-groove being used for clamping mould second end; The quantity of the first tongue-and-groove is at least two, and the quantity of the first tongue-and-groove and the second tongue-and-groove is equal, first tongue-and-groove and second tongue-and-groove positioned opposite, thus realize die frame clamping at least two moulds; The movable axis of described longitudinal cylinder compresses a side connecting plate, the end face of the movable axis compaction mold of described lateral cylinder.
Further, described first fixed block comprises the first holder and several first card articles, the rectangular structure of the first holder, and several first card articles are located at the top of the first holder and are formed the first tongue-and-groove described in several with the top of the first holder; Described second fixed block comprises the second holder and several second card articles, and the second holder is the L shape structure be made up of rectangular portion and baffle portion, and several second card articles are located at the top of rectangular portion and are formed the second tongue-and-groove described in several with the top of rectangular portion; The top of described rectangular portion and the top of described first holder contour.
Further, described die frame also comprises detachable the first cushion block installed; The top side detachable of described first holder is provided with the first cushion block, and this first cushion block is positioned at the outside of several the first card articles described, and the end face of the first cushion block is lower than the end face of the first card article; The movable axis of described longitudinal cylinder press against the first cushion block.
Further, described die frame also comprises detachable the second cushion block installed, and the second cushion block is identical with the structure of the first cushion block; The top side detachable of described rectangular portion is provided with the second cushion block, this second cushion block described between several the second card article and described baffle portion, the end face of the second cushion block lower than the second card article end face and lower than the end face of baffle portion.
Further, the rectangular structure of described first fixed block, is provided with the 4th tongue-and-groove of indent at the end face of the first fixed block.
Compared with prior art, the beneficial effects of the utility model:
1, the utility model adopts above structure, realizes the automated exchanged cutter to mould holder, mould by longitudinal cylinder and lateral cylinder, reduces dependent manual operation, simple to operate, realize automation, handled easily, enhance productivity, and adopt above structure, manufacture simple, cost is low.
2, the utility model adopts mould holder structure, can realize clamped one time many rows mould, and many row's moulds charging simultaneously paster, enhances productivity; Mould holder manufacture in the utility model is simple, and cost is low, only needs common machining.
3, adopt the structure of the first cushion block and the second cushion block, achieve clamping plurality of specifications mould, versatility is good, easy to operate.
Accompanying drawing explanation
In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the schematic perspective view of the automated exchanged cutter mechanism embodiment of the utility model chip mounter;
Fig. 2 is exploded perspective view embodiment illustrated in fig. 1;
Fig. 3 is schematic top plan view embodiment illustrated in fig. 1;
Fig. 4 is the schematic perspective view of die frame in Fig. 1;
Fig. 5 is Fig. 4 is exploded perspective view;
Fig. 6 is the schematic diagram of die frame clamping first mould in Fig. 4; The first cushion block and the second cushion block are now dismantled;
Fig. 7 is the schematic diagram of die frame clamping second mould in Fig. 4; Now know clearly the first cushion block and the second cushion block are installed;
In figure, 1-chip mounter workbench; 2-lateral cylinder; The movable axis of 21-lateral cylinder; 3-first baffle plate; The longitudinal cylinder of 4-; The movable axis of the longitudinal cylinder of 41-; 5-second baffle; 6-die frame; 61-base plate; 62-side connecting plate; 63-first fixed block; 631-first tongue-and-groove; 632-first holder; 633-first card article; 64-second fixed block; 641-second tongue-and-groove; 642-second holder; 6421-rectangular portion; 6422-baffle portion; 643-second card article; 644-the 3rd tongue-and-groove; 65-first cushion block; 651-the 4th tongue-and-groove; 66-second cushion block; The longitudinal cylinder block of 7-; 81-first mould; 82-second mould.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.
The automated exchanged cutter mechanism of embodiment chip mounter as shown in Figures 1 to 7, comprises chip mounter workbench 1, two lateral cylinders 2, the first baffle plate 3 coordinated with this lateral cylinder 2, longitudinal cylinder 4, the second baffle 5 coordinated with this longitudinal cylinder 4 and the die frame 6 for clamping mold; Lateral cylinder 2, first baffle plate 3, longitudinal cylinder 4, second baffle 5 and die frame 6 are located on chip mounter workbench 1; Lateral cylinder 2 and the first baffle plate 3 match clamping mold frame side, and longitudinal cylinder 4 and second baffle 5 match clamping mold frame end face, thus realize clamping mold frame 6 on chip mounter workbench 1.
Chip mounter workbench 1 and the rectangular structure of die frame 6.The movable axis 21 of lateral cylinder stretches along the axis direction X-axis of chip mounter workbench 1, and the movable axis 41 of longitudinal cylinder stretches along the radial direction Y-axis of chip mounter workbench 1.
The present embodiment also comprises longitudinal cylinder block 7, and longitudinal cylinder 4 is arranged on chip mounter workbench 1 by longitudinal cylinder block 7; The movable axis 41 of longitudinal cylinder press against the upper position (namely press against end face or first cushion block 65 of mould) of die frame end face
Die frame 6 comprise rectangular structure base plate 61, be located at the long limit of base plate side connecting plate 62, be located at the first fixed block 63 of base plate first minor face and be located at the second fixed block 64 of base plate second minor face; The top of the first fixed block 63 forms the first tongue-and-groove 631, second fixed block 64 being used for clamping mould first end and forms the second tongue-and-groove 641 being used for clamping mould second end; The quantity of the first tongue-and-groove 631 is at least two, and the quantity of the first tongue-and-groove 631 and the second tongue-and-groove 641 is equal, first tongue-and-groove 631 and second tongue-and-groove 641 positioned opposite, thus realize die frame 6 clamping at least two moulds.The movable axis 41 of longitudinal cylinder compresses a side connecting plate 62, the end face of movable axis 21 compaction mold of lateral cylinder
First fixed block 63 comprises the first holder 632 and 3 rectangular structures of the first card article 633, first holder 632, and 3 the first card articles 633 are located at the top of the first holder 632 and form 4 the first tongue-and-grooves 631 with the top of the first holder 632.
Second fixed block 64 comprises the second holder 642 and 3 the second card articles 643, second holder 642 is the L shape structure be made up of rectangular portion 6421 and baffle portion 6422, and 3 the second card articles 643 are located at the top of rectangular portion 6421 and form 4 the second tongue-and-grooves 641 with the top of rectangular portion 6421.The top of rectangular portion 6421 and the top of the first holder 632 contour.The top of baffle portion 6422 is provided with the 3rd tongue-and-groove 644 closed with mould second end matching form.
During use, lain in by the present embodiment on chip mounter workbench, the first end of mould connects the first tongue-and-groove 631 and the second end connects the second tongue-and-groove 641 and the 3rd tongue-and-groove 644, can realize placing 4 moulds successively side by side on die frame.Four moulds charging simultaneously paster can be realized, enhance productivity.The overall dimension of the present embodiment is long 553mm* wide 86mm* height 71mm, and manufacture simple, cost is low, only needs common machining.
As to further improvement of this embodiment, it is identical with the structure of the second cushion block 66 with the second cushion block 66, first cushion block 65 that the present embodiment also comprises detachable the first cushion block 65 installed.The top side detachable of the first holder 632 is provided with the first cushion block 65, and this first cushion block 65 is positioned at the outside of 3 the first card articles 633, and the end face of the first cushion block 65 is lower than the end face of the first card article 633.Now the movable axis 41 of longitudinal cylinder press against the first cushion block 65.The top side detachable of rectangular portion 6421 is provided with the second cushion block 66, this second cushion block 66 between 3 the second card articles 643 and baffle portion 6422, the end face of the second cushion block 66 lower than the second card article 643 end face and lower than the end face of baffle portion 6422.The rectangular structure of first fixed block 5, is provided with the 4th tongue-and-groove 651 of indent at the end face of the first fixed block 5.
The present embodiment can realize by increase and decrease first cushion block 65 and the second cushion block 66 mould placing different model.Such as when dismounting first cushion block 65 and the second cushion block 66, can the first mould 81 (as shown in Figure 6) of clamping height 37.5mm specification; When installation first cushion block 65 and the second cushion block 66, can the second mould 82 (as shown in Figure 7) of clamping height 13mm specification.The present embodiment adopts the first cushion block 65 and the second cushion block 66, and while realization many rows mould works simultaneously, achieve clamping plurality of specifications mould, versatility is good.
Other structure of the automated exchanged cutter mechanism of the present embodiment chip mounter is see prior art.
The utility model is not limited to above-mentioned execution mode, if do not depart from spirit and scope of the present utility model to various change of the present utility model or modification, if these are changed and modification belongs within claim of the present utility model and equivalent technologies scope, then the utility model is also intended to comprise these change and modification.

Claims (8)

1. the automated exchanged cutter mechanism of chip mounter, is characterized in that: comprise chip mounter workbench, lateral cylinder, the first baffle plate coordinated with this lateral cylinder, longitudinal cylinder, the second baffle coordinated with this longitudinal cylinder and the die frame for clamping mold; Lateral cylinder, the first baffle plate, longitudinal cylinder, second baffle and die frame are located on chip mounter workbench; Lateral cylinder and the first baffle plate match clamping mold frame side, and longitudinal cylinder and second baffle match clamping mold frame end face, thus realize clamping mold frame on chip mounter workbench.
2. the automated exchanged cutter mechanism of chip mounter according to claim 1, is characterized in that: described chip mounter workbench and the rectangular structure of described die frame; The movable axis of described lateral cylinder stretches along the axis direction X-axis of described chip mounter workbench, and the movable axis of described longitudinal cylinder stretches along the radial direction Y-axis of chip mounter workbench.
3. the automated exchanged cutter mechanism of chip mounter according to claim 1 or 2, it is characterized in that: also comprise longitudinal cylinder block, described longitudinal cylinder is arranged on described chip mounter workbench by longitudinal cylinder block; The movable axis of longitudinal cylinder press against the upper position of described die frame end face.
4. the automated exchanged cutter mechanism of chip mounter according to claim 3, is characterized in that: described die frame comprise rectangular structure base plate, be located at the long limit of base plate side connecting plate, be located at the first fixed block of base plate first minor face and be located at the second fixed block of base plate second minor face; The first tongue-and-groove being used for clamping mould first end is formed on the top of the first fixed block, and the second fixed block forms the second tongue-and-groove being used for clamping mould second end; The quantity of the first tongue-and-groove is at least two, and the quantity of the first tongue-and-groove and the second tongue-and-groove is equal, first tongue-and-groove and second tongue-and-groove positioned opposite, thus realize die frame clamping at least two moulds; The movable axis of described longitudinal cylinder compresses a side connecting plate, the end face of the movable axis compaction mold of described lateral cylinder.
5. the automated exchanged cutter mechanism of chip mounter according to claim 4, it is characterized in that: described first fixed block comprises the first holder and several first card articles, the rectangular structure of first holder, several first card articles are located at the top of the first holder and are formed the first tongue-and-groove described in several with the top of the first holder; Described second fixed block comprises the second holder and several second card articles, and the second holder is the L shape structure be made up of rectangular portion and baffle portion, and several second card articles are located at the top of rectangular portion and are formed the second tongue-and-groove described in several with the top of rectangular portion; The top of described rectangular portion and the top of described first holder contour.
6. the automated exchanged cutter mechanism of chip mounter according to claim 5, is characterized in that: described die frame also comprises detachable the first cushion block installed; The top side detachable of described first holder is provided with the first cushion block, and this first cushion block is positioned at the outside of several the first card articles described, and the end face of the first cushion block is lower than the end face of the first card article; The movable axis of described longitudinal cylinder press against the first cushion block.
7. the automated exchanged cutter mechanism of chip mounter according to claim 6, is characterized in that: described die frame also comprises detachable the second cushion block installed, and the second cushion block is identical with the structure of the first cushion block; The top side detachable of described rectangular portion is provided with the second cushion block, this second cushion block described between several the second card article and described baffle portion, the end face of the second cushion block lower than the second card article end face and lower than the end face of baffle portion.
8. the automated exchanged cutter mechanism of chip mounter according to claim 7, is characterized in that: the rectangular structure of described first fixed block, is provided with the 4th tongue-and-groove of indent at the end face of the first fixed block.
CN201420334603.0U 2014-06-20 2014-06-20 The automated exchanged cutter mechanism of chip mounter Active CN204206629U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420334603.0U CN204206629U (en) 2014-06-20 2014-06-20 The automated exchanged cutter mechanism of chip mounter

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420334603.0U CN204206629U (en) 2014-06-20 2014-06-20 The automated exchanged cutter mechanism of chip mounter

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CN204206629U true CN204206629U (en) 2015-03-11

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI680702B (en) * 2018-11-08 2019-12-21 三泰科技股份有限公司 A quick release structure and an external feeder device for smt

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI680702B (en) * 2018-11-08 2019-12-21 三泰科技股份有限公司 A quick release structure and an external feeder device for smt

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Legal Events

Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model
CP03 Change of name, title or address

Address after: 510000 Guangdong city of Guangzhou province Panyu District Dalong Street Zhushan Industrial Road No. 51 building 21

Patentee after: Guangzhou Yi Bei Tuo Automation Technology Co. Ltd.

Address before: 510000, No. 3, building two, building B, No. 7, Fu Yi Road, Tai Lung Street, East Village, Panyu District, Guangzhou, Guangdong

Patentee before: GUANGZHOU ETOP ELECTRONIC TECHNOLOGY CO., LTD.

C56 Change in the name or address of the patentee