CN105500637A

CN105500637A - Side core-pulling device

Info

Publication number: CN105500637A
Application number: CN201510756725.8A
Authority: CN
Inventors: 钱贤峰
Original assignee: Ningbo Huanying Auto Parts Co Ltd
Current assignee: Ningbo Huanying Auto Parts Co Ltd
Priority date: 2015-11-09
Filing date: 2015-11-09
Publication date: 2016-04-20
Anticipated expiration: 2035-11-09
Also published as: CN105500637B

Abstract

The invention discloses a side core-pulling device. The side core-pulling device comprises an upper mold plate (13), a lower mold plate (14), a side mold plate (15), a transverse rod (27), a spring seat (28), a swing rod (16), a transmission gear (5) and a base (4), wherein a sprue (17) for a medium to flow is arranged in the upper mold plate (13); the lower mold plate (14) is glidingly connected onto the base (4) in the horizontal direction; the side mold plate (15) is glidingly connected onto the base (4) in the horizontal direction; a cavity (18) is formed by the outer wall of the upper mold plate (13), the inner wall of the lower mold plate (14) and the inner wall of the side mold plate (15) after mold closing, one end of the sprue (17) is communicated with the cavity (18), and a bulge block (29) for molding a mounting hole is arranged on the lower mold plate (14) in the direction facing the cavity (18). With the adoption of the side core-pulling device, the production efficiency is high, and produced parts have high precision.

Description

Side core-pulling device

Technical field

The present invention relates to the technical field of mold for the production of parts in processing automobile, particularly relate to a kind of side core-pulling device.

Background technology

Produce and processing automobile parts process in, often can relate to the part that a kind of cross sectional shape is U-shaped, and also can require to offer the installing hole for connecting on the sidewall of this U-shaped part.Current, when producing the U-shaped part of this band installing hole, often by the blank of a first injection mo(u)lding U-shaped, and then by machining installing hole.Manufactured parts greatly reduces production efficiency in this way, and the precision of part.

Summary of the invention

The technical problem to be solved in the present invention is, overcomes existing technological deficiency, provides a kind of production efficiency high and the high side core-pulling device of the parts precision produced.

Technical solution of the present invention is, provides a kind of side core-pulling device with following structure: comprise cope match-plate pattern, lower bolster, side template, cross bar, spring base, fork, travelling gear and pedestal; Be provided with the running channel for media flow in cope match-plate pattern, lower bolster is slidably connected on pedestal in the horizontal direction; Side template is slidably connected on pedestal in the horizontal direction, and after matched moulds, cope match-plate pattern outer wall and lower bolster inwall, side template inwall form die cavity, and running channel one end is communicated with die cavity, and lower bolster is provided with the projection for patterned mounting holes towards die cavity direction; Cross bar one end is fixedly connected with lower bolster, and pedestal is provided with the guide pin bushing slided along its length for cross bar, and cross bar is slidably connected in guide pin bushing; Spring base is fixedly connected on pedestal, and spring base is provided with blind hole, and the end away from lower bolster on cross bar is slidably connected in blind hole, and cross bar is provided with stage clip away between the end of lower bolster and blind via bottom; Fork is rotatably connected on pedestal, and fork upper end is provided with arc-shaped rack, and the center of circle of arc-shaped rack overlaps with the center of rotation relative to pedestal on fork; Pedestal slidably connects slide plate, upper surface and the lower surface of slide plate are respectively equipped with the second identical linear gear rack of structure and the 5th linear gear rack, the arc-shaped rack engaged transmission of the 5th linear gear rack and fork upper end, and slide plate pushes against near the end of lower bolster and lower bolster sidewall; Side template lower surface is provided with the 3rd linear gear rack, and pedestal is connected with the first gear by holder pivots, and the first gear simultaneously with the second linear gear rack and the 3rd linear gear rack engaged transmission; Fork lower end is provided with the second open slot; Travelling gear is rotatably connected on pedestal, and travelling gear end face is provided with the second straight pin, and the second straight pin is greater than zero to the distance of travelling gear axis, and the second straight pin is positioned at the second open slot of fork lower end; Described pedestal is provided with the drive unit for driving travelling gear rotating.

The present invention is rotated and reverse by drive unit band nutating gear, and travelling gear can swinging by the mating band movable pendulum bar bottom of the second straight pin and the second open slot in rotating process, and fork upper end also can swing; In the process that fork upper end swings, on the one hand slide plate and the second linear gear rack can be driven to move with engaging of the 5th linear gear rack by arc-shaped rack, the second linear gear rack is driving side template movement away from die cavity to facilitate parting by the transmission of the first gear and the 3rd linear gear rack; Another aspect can also promote cross bar by slide plate end and lower bolster moves, and the movement of lower bolster can drive projection to extract to facilitate the shaping rear parting of installing hole in die cavity.That is, installing hole can be molded rapidly on moulding sidewall by structure of the present invention, and moulding surface can be made to throw off with cope match-plate pattern outer wall, lower bolster inwall or side template inwall when cope match-plate pattern, lower bolster and side template parting, moulding takes out by handled easily personnel in mould, and then improves the production efficiency of moulding.In addition, installing hole is integrated with moulding, and that is, the precision of this moulding have also been obtained corresponding raising.Therefore, the invention provides the high and side core-pulling device that the parts precision produced is high of a kind of production efficiency.

Preferred as one, described pedestal slidably connects slide plate and refers to, pedestal has been horizontally disposed with guide rod, and sliding plate sleeve is connected on guide rod, and guide rod is provided with near lower bolster one end the limited block departed from from guide rod for anti-limited slip plate.Preferred by this, can improve the stability of skateboarding, also improve the precision of slide plate movement, anti-limited slip plate is partially sliding; In addition, can also depart from from guide rod in sliding process by anti-limited slip plate.

Preferred as one, the motor that described drive unit comprises guide pad, shell, the first magnet assemblies, the second magnet assemblies, rotating shaft and rotates for drive shaft, guide pad is fixedly connected on pedestal, first magnet assemblies setting-in in the enclosure, shell is vertically slidably connected on guide pad, and shell is provided with for the 4th linear gear rack with travelling gear engaged transmission; The second described magnet assemblies is positioned at vertically immediately below the first magnet assemblies; First magnet assemblies refer to S pole down, N pole bar magnet upward; Second magnet assemblies comprises liner, outer lining, the first arc-shaped magnet and the second arc-shaped magnet, and liner is connected by key with rotating shaft, in the first arc-shaped magnet and the radial clearance of the second arc-shaped magnet between liner and outer lining; The S of the first arc-shaped magnet extremely outwards, N pole inwards, the S pole of the second arc-shaped magnet is inwards, N is extremely outside, and the equal diameters of the first arc-shaped magnet and the second arc-shaped magnet and the center of circle are all on the axis of rotating shaft; In radial clearance between liner and outer lining, 1/4th is the first arc-shaped magnet, and 3/4ths is the second arc-shaped magnet; Described guide pad is provided with block spacing when sliding up and down for shell.Preferred by this, can intermittently drive travelling gear to rotate and reverse, thus make this mould can realize parting and the matched moulds of automation.Wherein, motor can done in order to drive strip magnet and shell to move up by the first arc-shaped magnet and bar magnet in a direction rotation process, also can do in order to drive strip magnet and shell to move down by the second arc-shaped magnet and bar magnet, thus the control realized bar magnet and the shell direction of motion, play the effect of a commutation; The standard to selection of Motor can be reduced by this structure, not need to increase extra commutating device and travelling gear is commutated, energy consumption of the present invention is also reduced.

Preferred as one, described drive unit refers to that pedestal is provided with the clockwise and anticlockwise motor for driving travelling gear to rotate.Preferred by this, intermittently cover of driver and bar magnet can move up and down, thus be with rotating and reverse of nutating gear, and then make this mould can realize parting and the matched moulds of automation.

Preferred as one, the 3rd described linear gear rack, the 5th linear gear rack and the second linear gear rack are arranged in parallel.Preferred by this, the accuracy of the second linear gear rack, the 3rd linear gear rack and the 5th linear gear rack transmission can be improved.

Preferred as one, described lower bolster is provided with the guide post consistent with the 3rd linear gear rack length direction, and side template is provided with the pilot hole for accommodating guide post.Preferred by this, lower bolster and the accuracy of side template when matched moulds can be improved, prevent lower bolster and side template from offseting when matched moulds.

Accompanying drawing explanation

Fig. 1 is partial sectional view of the present invention.

Fig. 2 is the enlarged drawing of part in the present invention.

Shown in figure: 1, guide pad, 2, shell, 3, rotating shaft, 4, pedestal, 5, travelling gear, 6, 4th linear gear rack, 7, bar magnet, 8, liner, 9, outer lining, 10, first arc-shaped magnet, 11, second arc-shaped magnet, 12, block, 13, cope match-plate pattern, 14, lower bolster, 15, side template, 16, fork, 17, running channel, 18, die cavity, 19, second linear gear rack, 20, 3rd linear gear rack, 21, second open slot, 22, second straight pin, 23, first gear, 24, guide post, 25, pilot hole, 26, guide pin bushing, 27, cross bar, 28, spring base, 29, projection, 30, blind hole, 31, stage clip, 32, support, 33, arc-shaped rack, 34, slide plate, 35, 5th linear gear rack, 36, guide rod, 37, limited block.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

As shown in the figure, operation principle during parting of the present invention: after injection mo(u)lding completes, cope match-plate pattern is thrown off in die cavity, projection due to lower bolster right side wall is also inserted in moulding sidewall, so, moulding can not be followed cope match-plate pattern and together be departed from die cavity, and namely the projection of template right side wall can play spacing effect;

In point mold process, if adopt more energy-conservation drive unit, namely the first magnet assemblies is comprised, during the drive unit of the parts such as the second magnet assemblies, driven by motor rotating shaft is rotated along a direction all the time, when being arranged on that in the second magnet assemblies in rotating shaft, the first arc-shaped magnet turns to the region that bar magnet is just right, because the S pole of the first arc-shaped magnet and the S of bar magnet bottom repel extremely mutually, thus bar magnet and shell can be driven to move up, namely rotated clockwise to make travelling gear by the engaged transmission of the first linear gear rack and travelling gear, fork also correspondingly rotates counterclockwise, fork upper end turns left, in the process that fork upper end turns left, can engage to drive slide plate and the second linear gear rack to be moved to the left by arc-shaped rack and the 5th linear gear rack, the second linear gear rack is moved right to drive side template by the transmission of the first gear and the 3rd linear gear rack, simultaneously, slide plate left part pushes cross bar and lower bolster moves along guide pin bushing axis left, the lower bolster be moved to the left can drive projection to extract from moulding sidewall, and stage clip can be pressed in spring base for lower bolster counter motion energy reserve by the cross bar left part be moved to the left, that is, lower bolster is contrary with the direction of motion of side template, namely mutual away from, thus moulding just can take out by operating personnel in mould, in a word, lower bolster and side template mutually away from process in, moulding also can relative to side template inwall generation relative displacement, and the installing hole on moulding can relative to projection outer wall generation relative displacement,

When the second arc-shaped magnet in the second magnet assemblies and bar magnet just pair time, because the N pole of the second arc-shaped magnet and the S pole of bar magnet bottom attract each other, thus bar magnet and shell can be driven to move down, and then drive other parts counter motions successively, and stage clip pushes cross bar and lower bolster is oppositely mobile to draw close to side template, until matched moulds completes.Because the second arc-shaped magnet takies same 3/4ths girths circumferentially, that is, rotating shaft drives the second magnet assemblies to rotate in the turnaround time, 1/4th times be the first arc-shaped magnet and bar magnet just to for parting, 3/4ths times were that the second arc-shaped magnet and bar magnet are just to for matched moulds.So the injection time after matched moulds of the present invention is three times for workman's pickup time after parting, so both can ensure the time required for matched moulds, after can giving parting again, pickup provides time enough, improves the operating efficiency of automatic die assembly injection moulding and parting pickup.

Side core-pulling device of the present invention comprises cope match-plate pattern 13, lower bolster 14, side template 15, cross bar 27, spring base 28, fork 16, travelling gear 5 and pedestal 4; Be provided with the running channel 17 for media flow in cope match-plate pattern 13, lower bolster 14 is slidably connected on pedestal 4 in the horizontal direction; Side template 15 is slidably connected on pedestal 4 in the horizontal direction, and cope match-plate pattern 13 outer wall and lower bolster 14 inwall, side template 15 inwall form die cavity 18 after matched moulds, running channel 17 one end is communicated with die cavity 18, and lower bolster 14 is provided with the projection 29 for patterned mounting holes towards die cavity 18 direction; Wherein, cope match-plate pattern 13 is connected with injection machine, can move up during parting during matched moulds as shown in Figure 1.

Cross bar 27 one end is fixedly connected with lower bolster 14, and pedestal 4 is provided with the guide pin bushing 26 slided along its length for cross bar 27, and cross bar 27 is slidably connected in guide pin bushing 26;

Spring base 28 is fixedly connected on pedestal 4, spring base 28 is provided with blind hole 30, and cross bar 27 is slidably connected in blind hole 30 away from the end of lower bolster 14, and cross bar 27 is provided with stage clip 31 between bottom the end of lower bolster 14 and blind hole 30;

Fork 16 is rotatably connected on pedestal 4, and fork 16 upper end is provided with arc-shaped rack 33, and the center of circle of arc-shaped rack 33 overlaps relative to the center of rotation of pedestal 4 with on fork 16; Pedestal 4 slidably connects slide plate 34, upper surface and the lower surface of slide plate 34 are respectively equipped with the second identical linear gear rack 19 of structure and the 5th linear gear rack, arc-shaped rack 33 engaged transmission of the 5th linear gear rack 35 and fork 16 upper end, and slide plate 34 pushes against near the end of lower bolster 14 and lower bolster 14 sidewall; Side template 15 lower surface is provided with the 3rd linear gear rack 20, and pedestal 4 is rotatably connected to the first gear 23 by support 32, and the first gear 23 simultaneously with the second linear gear rack 19 and the 3rd linear gear rack 20 engaged transmission; Fork 16 lower end is provided with the second open slot 21;

Travelling gear 5 is rotatably connected on pedestal 4, and travelling gear 5 end face is provided with the second straight pin 22, second straight pin 22 and is greater than zero to the distance of travelling gear 5 axis, and the second straight pin 22 is positioned at the second open slot 21 of fork 16 lower end; Described pedestal 4 is provided with the drive unit for driving travelling gear 5 rotating.

Described pedestal 4 slidably connects slide plate 34 refer to, pedestal 4 has been horizontally disposed with guide rod 36, slide plate 34 is socketed on guide rod 36, and guide rod 36 is provided with near lower bolster 14 one end the limited block 37 departed from from guide rod 36 for anti-limited slip plate 34.

A kind of embodiment about drive unit: the motor that described drive unit comprises guide pad 1, shell 2, first magnet assemblies, the second magnet assemblies, rotating shaft 3 and rotates for drive shaft 3, guide pad 1 is fixedly connected on pedestal 4, first magnet assemblies is inlaid in shell 2, shell 2 is vertically slidably connected on guide pad 1, and shell 2 is provided with for the 4th linear gear rack 6 with travelling gear 5 engaged transmission; The second described magnet assemblies is positioned at vertically immediately below the first magnet assemblies; First magnet assemblies refer to S pole down, N pole bar magnet 7 upward; Second magnet assemblies comprises liner 8, outer lining 9, first arc-shaped magnet 10 and the second arc-shaped magnet 11, and liner 8 is connected by key with rotating shaft 3, in the first arc-shaped magnet 10 and the radial clearance of the second arc-shaped magnet 11 between liner 8 and outer lining 9; The S of the first arc-shaped magnet 10 extremely outwards, N pole inwards, the S pole of the second arc-shaped magnet 11 is inwards, N is extremely outside, and the equal diameters of the first arc-shaped magnet 10 and the second arc-shaped magnet 11 and the center of circle are all on the axis of rotating shaft 3; In radial clearance between liner 8 and outer lining 9,1/4th be the first arc-shaped magnet 10,3/4ths is the second arc-shaped magnet 11; Described guide pad 1 is provided with block 12 spacing when sliding up and down for shell 2.Adopt this drive unit can be more energy-conservation, reduce energy consumption when the present invention works.

Another kind of embodiment about drive unit: described drive unit also can refer to that pedestal 4 is provided with the clockwise and anticlockwise motor for driving travelling gear 5 to rotate.Adopt clockwise and anticlockwise motor can simplify the structure of whole device, the drive disk assembly of a part for travelling gear 4 rotating commutation can be remained.

The 3rd described linear gear rack 20, the 5th linear gear rack 35 and the second linear gear rack 19 are arranged in parallel.

Described lower bolster 14 is provided with the guide post 24 consistent with the 3rd linear gear rack 20 length direction, and side template 15 is provided with the pilot hole 25 for accommodating guide post 24.For being provided with chamfering with one end of pilot hole 25 grafting on guide post 24, be properly inserted in pilot hole 25 to facilitate guide post 24.

The foregoing is only preferred embodiment of the present invention, not for limiting the scope of the invention.All within the claims in the present invention, any amendment done, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims

1. a side core-pulling device, is characterized in that: it comprises cope match-plate pattern (13), lower bolster (14), side template (15), cross bar (27), spring base (28), fork (16), travelling gear (5) and pedestal (4); Be provided with the running channel (17) for media flow in cope match-plate pattern (13), lower bolster (14) is slidably connected on pedestal (4) in the horizontal direction; Side template (15) is slidably connected on pedestal (4) in the horizontal direction, and cope match-plate pattern (13) outer wall and lower bolster (14) inwall, side template (15) inwall form die cavity (18) after matched moulds, running channel (17) one end is communicated with die cavity (18), and lower bolster (14) is provided with the projection (29) for patterned mounting holes towards die cavity (18) direction;

Cross bar (27) one end is fixedly connected with lower bolster (14), pedestal (4) is provided with the guide pin bushing (26) slided along its length for cross bar (27), and cross bar (27) is slidably connected in guide pin bushing (26);

Spring base (28) is fixedly connected on pedestal (4), spring base (28) is provided with blind hole (30), cross bar (27) is slidably connected in blind hole (30) away from the end of lower bolster (14), and cross bar (27) is provided with stage clip (31) away between the end of lower bolster (14) and blind hole (30) bottom;

Fork (16) is rotatably connected on pedestal (4), fork (16) upper end is provided with arc-shaped rack (33), and the center of circle of arc-shaped rack (33) overlaps relative to the center of rotation of pedestal (4) with on fork (16); Pedestal (4) slidably connects slide plate (34), upper surface and the lower surface of slide plate (34) are respectively equipped with identical the second linear gear rack (19) of structure and the 5th linear gear rack, arc-shaped rack (33) engaged transmission of the 5th linear gear rack (35) and fork (16) upper end, and the upper end near lower bolster (14) of slide plate (34) and lower bolster (14) sidewall push against; Side template (15) lower surface is provided with the 3rd linear gear rack (20), pedestal (4) is rotatably connected to the first gear (23) by support (32), and the first gear (23) simultaneously with the second linear gear rack (19) and the 3rd linear gear rack (20) engaged transmission; Fork (16) lower end is provided with the second open slot (21);

Travelling gear (5) is rotatably connected on pedestal (4), travelling gear (5) end face is provided with the second straight pin (22), second straight pin (22) is greater than zero to the distance of travelling gear (5) axis, and the second straight pin (22) is positioned at second open slot (21) of fork (16) lower end;

Described pedestal (4) is provided with the drive unit for driving travelling gear (5) rotating.

2. side core-pulling device according to claim 1, it is characterized in that: described pedestal (4) slidably connects slide plate (34) and refers to, pedestal (4) is horizontally disposed with guide rod (36), slide plate (34) is socketed on guide rod (36), and upper close lower bolster (14) one end of guide rod (36) is provided with the limited block (37) departed from from guide rod (36) for anti-limited slip plate (34).

3. side core-pulling device according to claim 1, it is characterized in that: described drive unit comprises guide pad (1), shell (2), first magnet assemblies, second magnet assemblies, rotating shaft (3) and the motor rotated for drive shaft (3), guide pad (1) is fixedly connected on pedestal (4), first magnet assemblies is inlaid in shell (2), shell (2) is vertically slidably connected on guide pad (1), and shell (2) is provided with for the 4th linear gear rack (6) with travelling gear (5) engaged transmission, the second described magnet assemblies is positioned at vertically immediately below the first magnet assemblies,

First magnet assemblies refer to S pole down, N pole bar magnet upward (7);

Second magnet assemblies comprises liner (8), outer lining (9), the first arc-shaped magnet (10) and the second arc-shaped magnet (11), liner (8) is connected by key with rotating shaft (3), and the first arc-shaped magnet (10) and the second arc-shaped magnet (11) are positioned at the radial clearance between liner (8) and outer lining (9); The S of the first arc-shaped magnet (10) extremely outwards, N pole inwards, the S pole of the second arc-shaped magnet (11) inwards, N is extremely outside, and the equal diameters of the first arc-shaped magnet (10) and the second arc-shaped magnet (11) and the center of circle are all on the axis of rotating shaft (3); In radial clearance between liner (8) and outer lining (9), 1/4th is the first arc-shaped magnet (10), and 3/4ths is the second arc-shaped magnet (11); Described guide pad (1) is provided with block (12) spacing when sliding up and down for shell (2).

4. side core-pulling device according to claim 1, is characterized in that: described drive unit refers to that pedestal (4) is provided with the clockwise and anticlockwise motor for driving travelling gear (5) to rotate.

5. side core-pulling device according to claim 1, is characterized in that: the 3rd described linear gear rack (20), the 5th linear gear rack (35) and the second linear gear rack (19) are arranged in parallel.

6. side core-pulling device according to claim 1, it is characterized in that: described lower bolster (14) is provided with the guide post (24) consistent with the 3rd linear gear rack (20) length direction, and side template (15) is provided with the pilot hole (25) for accommodating guide post (24).