CN210121886U

CN210121886U - Disc type multi-station silica gel suction nozzle horizontal type notching device

Info

Publication number: CN210121886U
Application number: CN201922258336.9U
Authority: CN
Inventors: 曹俊杰
Original assignee: Foshan Sanshui East Rubber And Plastic Products Co Ltd
Current assignee: Foshan Sanshui East Rubber And Plastic Products Co Ltd
Priority date: 2019-12-17
Filing date: 2019-12-17
Publication date: 2020-03-03
Anticipated expiration: 2029-12-17

Abstract

The utility model discloses a disc type multi-station horizontal punching device with a silica gel suction nozzle, which comprises a punching platform and a disc arranged on the punching platform, wherein the disc is provided with a feeding station, a punching station, a transition station and a discharging station which are sequentially distributed along the rotation direction of the disc, the disc is respectively provided with four material placing tables, and the four material placing tables are respectively provided with material placing grooves for the silica gel suction nozzle to horizontally slide and the opening of the silica gel suction nozzle faces to the outside; the utility model discloses a put the material platform and make silica gel suction nozzle setting of crouching, then through the frock of blunging, the cutter that utilizes in the frock of blunging accomplishes the process of blunging in a frock with the roof pressure rod realization, accomplishes the ejection of compact through ejection of compact frock at last, at whole course of working and the equal full automatization of ejection of compact process, make whole machining efficiency high, and processingquality is high.

Description

Disc type multi-station silica gel suction nozzle horizontal type notching device

Technical Field

The utility model belongs to the technical field of the mechanical skill and specifically relates to a horizontal notching device of disc type multistation silica gel suction nozzle is related to.

Background

The silica gel suction nozzle need carry out incision and die cut process in the course of working, to the great silica gel suction nozzle of specification in vertical die cut device processing, because the specification is great to warp easily in the course of working, current die cut device carries out incision or die cut process in only a frock moreover, makes whole machining efficiency low, also needs artifical ejection of compact when the ejection of compact.

SUMMERY OF THE UTILITY MODEL

To prior art's not enough, the utility model aims to provide a disc type multistation silica gel suction nozzle horizontal notching device that machining efficiency is high, processingquality is high.

In order to achieve the above purpose, the utility model provides a scheme does: a disc type multi-station horizontal punching device for a silica gel suction nozzle comprises a punching platform and a disc arranged on the punching platform, wherein a feeding station, a punching station, a transition station and a discharging station which are sequentially distributed along the rotation direction of the disc are arranged on the disc, four material placing tables are respectively provided with a material placing groove for the silica gel suction nozzle to horizontally pass, the opening of the silica gel suction nozzle faces to the outside, meanwhile, the four material placing tables respectively correspond to the feeding station, the punching station, the transition station and the discharging station one by one, a pressing die cylinder, a pressing die, a feeding cylinder, a cutter, a jacking cylinder and a jacking rod are arranged in the punching station, the pressing die cylinder is vertically arranged above the material placing tables and connected with the pressing die, the pressing die is positioned above the material placing tables and is in butt joint fit with the material placing tables up and down to compress the silica gel suction nozzle, the feed cylinder is arranged on the outer side of the material placing table in the horizontal direction and connected with the cutter, the cutter advances into a gap between the pressing die and the material placing table, the jacking cylinder is arranged on the inner side of the material placing table and connected with the jacking rod, and the jacking rod advances into the silica gel suction nozzle and jacks the silica gel suction nozzle;

be provided with translation cylinder, translation baffle, lift cylinder, double-layered material cylinder and two clamping jaws in the ejection of compact station, translation cylinder horizontal direction sets up and the piston rod of translation cylinder is connected the translation baffle, set up on the translation baffle the lift cylinder, the vertical setting of lift cylinder and this lift cylinder are connected the double-layered material cylinder, this double-layered material cylinder is located put the material bench side, simultaneously the double-layered material cylinder is connected two respectively the clamping jaw is close to the clamp each other in order to drive two clamping jaws and gets the silica gel suction nozzle of putting the material bench.

The utility model has the advantages that: realize semi-automatic production, machining efficiency is high, the utility model is suitable for a processing of the great silica gel suction nozzle of specification the utility model discloses in, through putting the setting of material platform messenger silica gel suction nozzle crouching, then through the station of blunting, utilize the cutter in the station of blunting to realize accomplishing the process of blunting in a frock with the roof pressure pole, accomplish the ejection of compact through ejection of compact station at last, at whole course of working and the equal full automatization of ejection of compact process, make whole machining efficiency high, and processingquality is high.

Furthermore, a material pressing cylinder and a material pressing plate are arranged in the transition station, the material pressing cylinder is vertically arranged and connected with the material pressing plate, and the material pressing plate is located above the material placing table.

Further, still include the rotation motor, the rotation motor set up in the disc below, and this rotation motor connects the disc.

Drawings

Fig. 1 is a three-dimensional structure diagram of the present invention.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a front view of the present invention.

Fig. 4 is a partially enlarged view of fig. 3 at B.

Fig. 5 is a top view of the present invention.

Fig. 6 is a side view of the present invention.

The punching machine comprises a punching platform 1, a disc 11, a material placing platform 12, a material placing groove 121, a rotating motor 13, a pressing die cylinder 21, a pressing die 22, a cutting feed cylinder 23, a cutter 24, a jacking cylinder 25, a jacking rod 26, a pressing cylinder 31, a pressing plate 32, a translation cylinder 41, a translation guide plate 42, a lifting cylinder 43, a material clamping cylinder 44 and a clamping jaw 45.

Detailed Description

The invention will be further described with reference to the following specific embodiments:

referring to the attached drawings 1 to 6, a disc type multi-station horizontal punching device for a silica gel suction nozzle comprises a punching platform 1 and a disc 11 arranged on the punching platform 1, wherein the disc 11 is provided with a feeding station, a punching station, a transition station and a discharging station which are sequentially distributed along the rotation direction of the disc 11, the disc 11 is respectively provided with four material placing tables 12, the four material placing tables 12 are respectively provided with a material placing groove 121 for the silica gel suction nozzle to horizontally pass, the opening of the silica gel suction nozzle faces to the outside, the four material placing tables 12 respectively correspond to the feeding station, the punching station, the transition station and the discharging station one by one, a pressing mold cylinder 21, a pressing mold 22, a cutter cylinder 23, a cutter 24, a pressing mold cylinder 25 and a pressing rod 26 are arranged in the punching station, the pressing mold cylinder 21 is vertically arranged above the material placing table 12 and connected with the pressing mold 22, the pressing mold 22 is arranged above the material placing table 12, and the pressing mold 22 is in up-down butt joint fit, the feeding cylinder 23 is horizontally arranged at the outer side of the material placing table 12, the feeding cylinder 23 is connected with the cutter 24, the cutter 24 advances into a gap between the pressing die 22 and the material placing table 12, the jacking cylinder 25 is arranged at the inner side of the material placing table 12, the jacking cylinder 25 is connected with the jacking rod 26, and the jacking rod 26 advances into the silica gel suction nozzle and jacks the silica gel suction nozzle;

be provided with translation cylinder 41 in the ejection of compact station, translation baffle 42, lift cylinder 43, press from both sides material cylinder 44 and two clamping jaws 45, translation cylinder 41 horizontal direction sets up and translation cylinder 41's piston rod connects translation baffle 42, set up lift cylinder 43 on the translation baffle 42, lift cylinder 43 is vertical to be set up and this lift cylinder 43 connects and presss from both sides material cylinder 44, this presss from both sides material cylinder 44 is located puts the material platform 12 top, press from both sides material cylinder 44 and connect two clamping jaws 45 respectively in order to drive two clamping jaws 45 and be close to each other and press from both sides the silica gel suction nozzle of putting on the material platform 12 simultaneously.

Wherein, be provided with material pressing cylinder 31 and pressure flitch 32 in the transition station, material pressing cylinder 31 vertically sets up and connects pressure flitch 32, and pressure flitch 32 is located and puts the material platform 12 top.

The present embodiment further includes a rotating motor 13, the rotating motor 13 is disposed below the disk 11, and the rotating motor 13 is connected to the disk 11. Meanwhile, the silica gel suction nozzle is manually placed on the material placing table through manual feeding in the feeding station.

The specific processing procedure of this embodiment: firstly, manually placing a silica gel suction nozzle to be processed in a material placing table 12 positioned at a feeding station, wherein the silica gel suction nozzle is horizontally arranged in a material placing groove 121 of the material placing table 12, and then rotating a motor 13 to drive a disc 11 to perform first 90-degree rotation so that the material placing table 12 provided with the silica gel suction nozzle moves to a punching station; at the moment, the pressing die cylinder 21 is started, the pressing die cylinder 21 drives the pressing die 22 to press downwards so that the pressing die 22 is in butt joint with the material placing table 12 to press the silica gel suction nozzle tightly, then the jacking cylinder 25 is started to drive the jacking rod 26 to advance into the silica gel suction nozzle and jack the silica gel suction nozzle, the feed cylinder 34 is started again so that the feed cylinder 23 drives the cutter 24 to feed to punch the silica gel suction nozzle, after the punching process is finished, the rotating motor 13 is started again so that the rotating motor 13 drives the disc 11 to rotate for the second 90-degree angle, and the silica gel suction nozzle with the punched hole is moved to a transition station; at the transition station, the pressing cylinder 31 drives the pressing plate 32 to move downwards to press the silica gel suction nozzle, so that the cut of the silica gel suction nozzle after cutting is opened, and after pressing is completed, the rotating motor 13 drives the disc 11 to rotate for 90 degrees for the third time, so that the material placing groove 12 located at the transition station moves to the discharging station; in the discharging station, the translation cylinder 41 drives the translation guide plate 42 to translate inwards to drive the lifting cylinder 43 and the material clamping cylinder 44 to translate inwards to enable the two clamping jaws 45 to translate to the upper side of the material placing groove 12, then the lifting cylinder 43 is started to enable the lifting cylinder 43 to drive the material clamping cylinder 44 and the two clamping jaws 45 to move downwards to corresponding positions, then the material clamping cylinder 44 is started to enable the two clamping jaws 45 to approach each other to clamp the silica gel suction nozzle together, after the two clamping jaws 45 clamp the silica gel suction nozzle, the lifting cylinder 43 and the translation cylinder 41 return to the original process to move the silica gel suction nozzle to the upper side of the collecting box outside the mouth punching platform 1, finally the material clamping cylinder 44 is controlled to enable the two clamping jaws 45 to move away from each other to loosen the silica gel suction nozzle, so that the.

And after the material placing groove 12 in the discharging station is taken away by the silica gel suction nozzle, the rotating motor 13 drives the disc 11 to rotate for 90 degrees for the fourth time, so that the material placing table 12 moves to the feeding station again to wait for manual feeding of workers, and meanwhile, because the four material placing tables 12 are respectively arranged on the disc 11 to respectively correspond to the feeding station, the notching station, the transition station and the discharging station one by one, the feeding station, the notching station, the transition station and the discharging station of the embodiment can be continuously processed.

The above-described embodiments are merely preferred embodiments of the present invention, which are not intended to limit the present invention in any way. Those skilled in the art can make further changes and modifications to the invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the invention. Therefore, the content of the technical scheme of the utility model, according to the equivalent change made by the idea of the utility model, should be covered in the protection scope of the utility model.

Claims

1. The utility model provides a horizontal blurting out device of disc type multistation silica gel suction nozzle which characterized in that: the device comprises a punching platform (1) and a disc (11) arranged on the punching platform (1), wherein a feeding station, a punching station, a transition station and a discharging station which are sequentially distributed along the rotation direction of the disc (11) are arranged on the disc (11), four material placing tables (12) are respectively provided with a material placing groove (121) for a silica gel suction nozzle to horizontally pass, the opening of the silica gel suction nozzle faces to the outside, meanwhile, four material placing tables (12) respectively correspond to the feeding station, the punching station, the transition station and the discharging station one by one, a pressing die cylinder (21), a pressing die (22), a feeding cylinder (23), a cutter (24), a pressing cylinder (25) and a pressing rod (26) are arranged in the punching station, the pressing die cylinder (21) is vertically arranged above the material placing tables (12) and connected with the pressing die (22), the pressing die (22) is located above the material placing table (12), the pressing die (22) and the material placing table (12) are in butt joint with each other up and down to match and tightly press the silica gel suction nozzle, the feed cylinder (23) is horizontally arranged on the outer side of the material placing table (12), the feed cylinder (23) is connected with the cutter (24), the cutter (24) advances into a gap between the pressing die (22) and the material placing table (12), the jacking cylinder (25) is arranged on the inner side of the material placing table (12), the jacking cylinder (25) is connected with the jacking rod (26), and the jacking rod (26) advances into the silica gel suction nozzle and jacks the silica gel suction nozzle;

be provided with translation cylinder (41), translation baffle (42), lift cylinder (43), press from both sides material cylinder (44) and two clamping jaws (45) in the ejection of compact station, translation cylinder (41) horizontal direction sets up and the piston rod of translation cylinder (41) is connected translation baffle (42), set up on translation baffle (42) lift cylinder (43), lift cylinder (43) vertical setting and this lift cylinder (43) are connected press from both sides material cylinder (44), should press from both sides material cylinder (44) and be located put material platform (12) top, simultaneously press from both sides material cylinder (44) and connect two respectively clamping jaw (45) are close to each other in order to drive two clamping jaws (45) and press from both sides the silica gel suction nozzle of putting on material platform (12).

2. The disc type multi-station silica gel suction nozzle horizontal notching device of claim 1, which is characterized in that: a material pressing cylinder (31) and a material pressing plate (32) are arranged in the transition station, the material pressing cylinder (31) is vertically arranged and connected with the material pressing plate (32), and the material pressing plate (32) is located above the material placing platform (12).

3. The disc type multi-station silica gel suction nozzle horizontal notching device of claim 1, which is characterized in that: still include rotation motor (13), rotation motor (13) set up in disc (11) below, and this rotation motor (13) are connected disc (11).