CN210389992U - Die-cut mouth of a river remove device that bores and mills integration - Google Patents

Die-cut mouth of a river remove device that bores and mills integration Download PDF

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Publication number
CN210389992U
CN210389992U CN201921161633.5U CN201921161633U CN210389992U CN 210389992 U CN210389992 U CN 210389992U CN 201921161633 U CN201921161633 U CN 201921161633U CN 210389992 U CN210389992 U CN 210389992U
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die
milling
drilling
punching
cutting
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CN201921161633.5U
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李盛松
刘建雄
曾务平
朱保明
杨杰
陈梅
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Speed Precision Tech Co ltd
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Speed Precision Tech Co ltd
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Abstract

The utility model discloses a die-cut drilling and milling integrated water gap removing device, which comprises a die-cut mechanism, a drilling and milling mechanism and a transfer mechanism, wherein the die-cut mechanism and the drilling and milling mechanism are arranged in parallel; the first power part drives the punching upper die to approach the punching lower die so as to cut a water gap or drives the punching upper die to be far away from the punching lower die; the drilling and milling mechanism comprises an upper drilling and milling die, a lower drilling and milling die and a second power component, wherein the second power component drives the upper drilling and milling die to approach the lower drilling and milling die so as to drill and mill a water gap or drives the upper drilling and milling die to move away from the lower drilling and milling die; the transfer mechanism transfers the product between the punching lower die and the drilling and milling lower die. The utility model is used for getting rid of mouth of a river on the injection molding.

Description

Die-cut mouth of a river remove device that bores and mills integration
Technical Field
The utility model relates to an injection molding mouth of a river treatment facility technical field, concretely relates to die-cut mouth of a river remove device who bores and mills integration.
Background
In recent years, the plastic manufacturing industry is rapidly developed, the application field of plastic parts is more and more extensive, and the plastic parts are used in daily life, electrical appliances and production equipment. The plastic part shaping adopts the forming method of moulding plastics more, can produce the mouth of a river in the injection moulding process, general mouth of a river needs to be got rid of through the mode of shearing, but still can leave the unevenness structure such as arch or edges and corners on the product after the shearing, still can not satisfy the outward appearance requirement to the higher product of outward appearance requirement singly through shearing the mouth of a river, consequently many products still need further processing after cutting the mouth of a river, for example, artifical polishing etc. present processing method is mostly manual processing, low in production efficiency, and the product uniformity of production is not good, can not satisfy the demand of industrial production.
SUMMERY OF THE UTILITY MODEL
The utility model provides a technical problem to not enough in the background art, a die-cut brill that can solve mills mouth of a river remove device of integration is provided.
In order to solve the technical problem, the technical scheme of the utility model is that: a die-cut, drilling and milling integrated water gap removing device comprises a die-cut mechanism, a drilling and milling mechanism and a transfer mechanism, wherein the die-cut mechanism and the drilling and milling mechanism are arranged in parallel; the first power part drives the punching upper die to approach the punching lower die so as to cut a water gap or drives the punching upper die to be far away from the punching lower die; the drilling and milling mechanism comprises an upper drilling and milling die, a lower drilling and milling die and a second power component, wherein the second power component drives the upper drilling and milling die to approach the lower drilling and milling die so as to drill and mill a water gap or drives the upper drilling and milling die to move away from the lower drilling and milling die; the transfer mechanism transfers the product between the punching lower die and the drilling and milling lower die.
Further, the punching lower die is arranged below the punching upper die in a sliding mode.
Furthermore, the transfer mechanism comprises a synchronous transfer structure, and the synchronous transfer structure comprises a third power component, and a first material taking tray and a second material taking tray which are respectively in driving connection with the third power component.
Furthermore, the first material taking disc and the second material taking disc respectively comprise a plurality of suction nozzles.
Further, the transfer mechanism further comprises a transfer belt, and the transfer belt is arranged at the rear end of the synchronous transfer structure.
Further, die-cut mould includes first mounting panel, cutter and guide bar, the downside at first mounting panel is all fixed to cutter and guide bar, be provided with on the die-cut lower mould and supply guide bar male guiding hole.
Further, the upper drilling and milling die comprises a plurality of milling heads.
Further, still include the mounting bracket, cutting mechanism, brill mill mechanism and transfer mechanism all set up on the mounting bracket.
The utility model discloses the beneficial effect who realizes mainly has following several: the punching mechanism and the drilling and milling mechanism are arranged, so that a water gap of the injection molding part can be removed in a mode of punching and milling firstly and then drilling and milling, complete removal of the water gap on the injection molding part is ensured, and the appearance of the injection molding part is smoother; the punching mechanism and the drilling and milling mechanism are integrally arranged, so that the water cutting port and the drilling and milling port can be completed on the same equipment, and the efficiency of removing the water port of the injection molding part can be improved; the transfer mechanism is arranged between the punching mechanism and the drilling and milling mechanism, so that after the punching operation of the punching mechanism is completed, the product can be automatically transferred to the drilling and milling mechanism for drilling and milling operation, the punching operation and the drilling and milling operation can be continuously completed, and the efficiency of removing the water gap of the injection molding part can be further improved.
Drawings
Fig. 1 is a schematic perspective view of a die-cutting, drilling and milling integrated nozzle removing device according to a first embodiment of the present invention (without a transfer belt);
fig. 2 is the utility model discloses a die-cut mouth of a river remove device owner who bores and mills integration looks structural schematic diagram in the embodiment one.
The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the same or similar reference numerals correspond to the same or similar parts; the terms describing positional relationships in the drawings are for illustrative purposes only and are not to be construed as limiting the patent.
Detailed Description
To facilitate understanding for those skilled in the art, the present invention will be described in further detail with reference to the accompanying drawings and examples.
Example one
Referring to fig. 1 and 2, the integrated die-cutting, drilling and milling water gap removing device is used for continuously cutting a water gap, drilling and milling the water gap and other positions needing to be drilled and milled after injection molding of an injection molding part is completed. The die-cut drilling and milling integrated water gap removing device comprises a die-cut mechanism 1, a drilling and milling mechanism 2 and a transfer mechanism 3, and is additionally provided with an installation frame 4, wherein the die-cut mechanism 1, the drilling and milling mechanism 2 and the transfer mechanism 3 are all arranged on the installation frame 4. The punching mechanism 1 and the drilling and milling mechanism 2 are arranged in parallel, and the punching mechanism 1 is arranged in front of the drilling and milling mechanism 2 and the drilling and milling mechanism 2 is arranged behind the drilling and milling mechanism according to the sequence of loading and unloading positions. The punching mechanism 1 comprises an upper punching die 11, a lower punching die 12 and a first power component 13, wherein the lower punching die 12 is used for fixing an injection molding piece, and a placing groove with the same appearance as the injection molding piece is arranged on the lower punching die 12. The upper die 11 for die cutting can be arranged in a lifting mode, and the first power component 13 drives the upper die 11 for die cutting to be close to the lower die 12 for cutting off the water gap or drives the upper die 11 for die cutting to be far away from the lower die 12 when the water gap is cut. The first power part 13 can be a screw mechanism or a telescopic cylinder.
Referring to fig. 2, the drilling and milling mechanism 2 includes an upper drilling and milling mold 21, a lower drilling and milling mold 22 and a second power component 23, wherein the lower drilling and milling mold 22 is disposed right below the upper drilling and milling mold 21 and is used for fixing an injection molding piece, which facilitates the fixing of the injection molding piece. The drilling and milling upper die 21 is arranged above the drilling and milling lower die 22 in a lifting mode, and the second power component 23 drives the drilling and milling upper die 21 to approach the drilling and milling lower die 22 so as to drill and mill a water gap or drives the drilling and milling upper die 21 to be far away from the drilling and milling lower die 22 after the drilling and milling are completed. The second power unit 23 may also adopt a telescopic cylinder or a screw mechanism. The transfer mechanism 3 transfers the product between the lower punching die 12 and the lower drilling and milling die 22, so that the product can be automatically transferred to the drilling and milling mechanism 2 for drilling and milling after the punching operation of the punching mechanism 1 is completed.
The punching mechanism 1 and the drilling and milling mechanism 2 are arranged, so that a water gap of the injection molding part can be removed in a mode of punching and milling firstly and then drilling and milling, complete removal of the water gap part on the injection molding part is ensured, and the appearance of the injection molding part is smoother; the punching mechanism 1 and the drilling and milling mechanism 2 are integrally arranged, so that the water cutting port and the drilling and milling port can be completed on the same equipment, and the efficiency of removing the water port of the injection molding part can be improved; the transfer mechanism 3 is arranged between the punching mechanism 1 and the drilling and milling mechanism 2, so that after the punching operation of the punching mechanism 1 is completed, the product can be automatically transferred to the drilling and milling mechanism 2 for drilling and milling operation, the punching operation and the drilling and milling operation can be continuously completed, and the efficiency of removing the water gap of the injection molding part can be further improved.
Referring to fig. 1 and 2, the lower punching die 12 is slidably disposed below the upper punching die 11, so that the lower punching die 12 can be slid to the outer side of the upper punching die 11 (at this position, the space above the lower punching die 12 is wide, and loading is facilitated), a manipulator and the like can conveniently load an injection molding into the lower punching die 12, and then the lower punching die 12 is slid to the position right below the upper punching die 11 for gate punching. Specifically, a slide rail 121 can be arranged on the mounting frame 4, a slide groove is arranged on the lower punching die 12, and the lower punching die 12 is arranged in a sliding manner by matching the slide groove with the slide rail; in addition, a telescopic cylinder can be arranged to drive the punching lower die 12 to slide on the slide rail 121.
Referring to fig. 1 and fig. 2, the transfer mechanism 3 includes a synchronous transfer structure 31, and the synchronous transfer structure 31 includes a third power component 311, and a first material taking tray 312 and a second material taking tray 313 respectively connected to the third power component 311 in a driving manner. First fetching disk 312 and second fetching disk 313 can adopt modes such as press from both sides and get the material, and this embodiment adopts the mode of absorption, all set up a plurality of vacuum suction nozzle on first fetching disk 312 and the second fetching disk 313, vacuum suction nozzle is connected with negative pressure mechanisms such as vacuum pump, adsorbs the product through the negative pressure. The first material taking disc 312 and the second material taking disc 313 are arranged in the direction of a connecting line between the punching mechanism 1 and the drilling and milling mechanism 2, and the third power part 311 can adopt a screw rod mechanism, a telescopic cylinder or a single-shaft manipulator. The first material taking tray 312 and the second material taking tray 313 are fixed in position and can be fixed at two ends of a mounting plate, and the mounting plate is connected to the third power component 311, so that the third power component 311 drives the first material taking tray 312 and the second material taking tray 313 to synchronously move to form a synchronous transplanting structure. During operation, the first material taking disc 312 takes out a punched injection molding from the lower punching die 12, the second material taking disc 313 takes out a drilled and milled injection molding from the lower drilling and milling die 22, then the first material taking disc 312 and the second material taking disc 313 synchronously act, the first material taking disc 312 transfers the punched injection molding to the lower drilling and milling die 22 for drilling and milling operation, and the second material taking disc 313 transfers the drilled and milled injection molding in the lower drilling and milling die 22 to a blanking position for blanking. Therefore, the functions of two manipulators can be realized through one synchronous transfer structure 31, so that the cost is saved, and the working efficiency can be improved.
Referring to fig. 2, the transfer mechanism 3 further includes a transfer belt 32, and the transfer belt 32 is disposed at the rear end of the synchronous transfer structure 31 and is used for abutting against the second material taking tray 313 to blank the injection molded part after punching and drilling and milling.
Referring to fig. 2, the upper punching die 11 includes a first mounting plate 111, a cutting knife 112 and a guide rod 113, the cutting knife 112 and the guide rod 113 are both fixed on the lower side of the first mounting plate 111, and a guide hole for inserting the guide rod 113 is provided on the lower punching die 12, so that the upper punching die 11 can be guided by the cooperation of the guide rod 113 and the guide hole when moving towards the lower punching die 12, and the accuracy and consistency of the water gap punching by the cutting knife 112 are ensured. The number and the position of the cutting blades 112 are set according to the number and the position of the water feeding ports on the injection molding part, and the guide rods 113 and the guide holes are preferably arranged one at each of four corners of the upper die cutting die 11 and the lower die cutting die 12. When the nozzle is punched, the injection molding is fixed on the lower punching die 12, the lower punching die 12 is positioned under the upper punching die 11, and the upper punching die 11 is driven by the first power part 13 to be pressed downwards so that the nozzle is cut off by the cutter. An opening for allowing the cut water gap to leak down can be reserved on the punching lower die 12, and a recovery tank is arranged below the punching lower die 12, so that the cut water gap falls into the recovery tank to be recovered.
Referring to fig. 2, the upper drilling and milling mold 21 includes a plurality of milling heads 211, each milling head 211 can drill and mill a position, and the plurality of milling heads 211 can drill and mill water gaps and glue inlets of different positions of the injection molding part, so that the drilling and milling of each part on the injection molding part can be completed at one time. The drilling and milling mechanism 2 can adopt a small-sized drilling and milling machine which is commercially available.
Referring to fig. 2, the mounting frame 4 is further provided with universal wheels 41 and adjustable legs 42, so that the movement and height adjustment of the nozzle removing device can be facilitated.
It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (8)

1. The utility model provides a mouth of a river remove device of punching, drilling and milling integration which characterized in that: the drilling and milling device comprises a punching mechanism (1), a drilling and milling mechanism (2) and a transfer mechanism (3), wherein the punching mechanism (1) and the drilling and milling mechanism (2) are arranged in parallel; the punching mechanism (1) comprises an upper punching die (11), a lower punching die (12) and a first power part (13), wherein the first power part (13) drives the upper punching die (11) to approach the lower punching die (12) so as to cut a water gap or drives the upper punching die (11) to be far away from the lower punching die (12); the drilling and milling mechanism (2) comprises an upper drilling and milling die (21), a lower drilling and milling die (22) and a second power component (23), wherein the second power component (23) drives the upper drilling and milling die (21) to approach the lower drilling and milling die (22) so as to drill and mill a water gap or drive the upper drilling and milling die (21) to be far away from the lower drilling and milling die (22); the transfer mechanism (3) transfers the product between the punching lower die (12) and the drilling and milling lower die (22).
2. The die-cutting, drilling and milling integrated nozzle removal device of claim 1, wherein: the lower punching die (12) is arranged below the upper punching die (11) in a sliding mode.
3. The die-cutting, drilling and milling integrated nozzle removal device of claim 2, wherein: the transfer mechanism (3) comprises a synchronous transfer structure (31), wherein the synchronous transfer structure (31) comprises a third power part (311) and a first material taking tray (312) and a second material taking tray (313) which are respectively in driving connection with the third power part (311).
4. The integrated die-cutting, drilling and milling nozzle removal device of claim 3, wherein: the first material taking plate (312) and the second material taking plate (313) respectively comprise a plurality of suction nozzles.
5. The integrated die-cutting, drilling and milling nozzle removal device of claim 4, wherein: the transfer mechanism (3) further comprises a transfer belt (32), and the transfer belt (32) is arranged at the rear end of the synchronous transfer structure (31).
6. The die-cutting, drilling and milling integrated nozzle removing device according to any one of claims 1 to 5, characterized in that: die-cut mould (11) include first mounting panel (111), cutter (112) and guide bar (113), the downside at first mounting panel (111) is all fixed in cutter (112) and guide bar (113), be provided with on die-cut lower mould (12) and supply guide bar (113) male guiding hole.
7. The integrated die-cutting, drilling and milling nozzle removal device of claim 6, wherein: the upper drilling and milling die (21) comprises a plurality of milling heads (211).
8. The integrated die-cutting, drilling and milling nozzle removal device of claim 6, wherein: the cutting mechanism (1), the drilling and milling mechanism (2) and the transfer mechanism (3) are all arranged on the mounting frame (4).
CN201921161633.5U 2019-07-23 2019-07-23 Die-cut mouth of a river remove device that bores and mills integration Active CN210389992U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921161633.5U CN210389992U (en) 2019-07-23 2019-07-23 Die-cut mouth of a river remove device that bores and mills integration

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921161633.5U CN210389992U (en) 2019-07-23 2019-07-23 Die-cut mouth of a river remove device that bores and mills integration

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CN210389992U true CN210389992U (en) 2020-04-24

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112793092A (en) * 2021-01-29 2021-05-14 广东格林精密部件股份有限公司 Automatic equipment for synchronously drilling and milling multiple water gaps of multiple spherical products
CN112895343A (en) * 2021-01-13 2021-06-04 威海志航机电科技有限公司 Injection molding multichannel mouth of a river remove device
CN114054589A (en) * 2021-11-16 2022-02-18 重庆晋川精密五金有限公司 Automatic forming device for fixing frame

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112895343A (en) * 2021-01-13 2021-06-04 威海志航机电科技有限公司 Injection molding multichannel mouth of a river remove device
CN112793092A (en) * 2021-01-29 2021-05-14 广东格林精密部件股份有限公司 Automatic equipment for synchronously drilling and milling multiple water gaps of multiple spherical products
CN114054589A (en) * 2021-11-16 2022-02-18 重庆晋川精密五金有限公司 Automatic forming device for fixing frame
CN114054589B (en) * 2021-11-16 2024-04-02 重庆晋川精密五金有限公司 Automatic forming device for fixing frame

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