CN108247975A - Mold shift motion control mechanism and the mold with the mold shift motion control mechanism - Google Patents

Abstract

The present invention provides a kind of mold shift motion control mechanism, for being used in mold, to each template movement in driven mold, there are rotatable male part and two moving members in the mold shift motion control mechanism, when two moving member moves, in the stroke in certain section, two moving members are moved together by the drive of male part, except the stroke in above-mentioned section, male part, which then turns to another location, makes two moving members not move together, thereby, mold shift motion control mechanism does not need to spring can the definitely position of Control architecture and shift motion, help to reduce the tolerance of workpiece and reduce cost of equipment maintenance.

Description

Mold shift motion control mechanism and with the mold shift motion control mechanism Mold

Technical field

The present invention relates to a kind of mold shift motion control mechanism, for controlling the template group in mold, to can Accurately control shift motion and the position of template group.

Background technology

In the technology for being currently used for control die location, such as the mold in Jet forming machine, guide rail can be utilized The path of motion of template group is limited, then each template in template group is pushed with the spring of plurality of specifications, makes template when moving It can be opened according to scheduled sequence entire or be moved to specific position.

However, needing to arrange in pairs or groups with the elastic force that spring is provided in aforementioned technology, it can just arrive template movement Precalculated position, when the processing conditions of workpiece changes, such as is changed to higher briquetting pressure, it would be desirable to consider spring institute together Whether the elastic force of offer has the problem of insufficient or excessive, has raised the technology door of mold design.

In addition, working as mold and board after a period of use, spring might have the situation of abrasion or elastic fatigue, can change The elastic force that is there is provided of spring is provided, and the accuracy of template position is made to decline, need to repair or is re-calibrated, have safeguard into Originally it is difficult to the situation reduced.

Invention content

It in view of this, can be it is a primary object of the present invention to provide a kind of mechanism that can control mold shift motion Without the use of the function that accurate control die location is provided in the case of spring.

In order to reach above-mentioned and other purposes, the present invention provides a kind of mold shift motion control mechanism, for being used in mould In tool, to each template movement in driven mold, there is rotatable male part in the mold shift motion control mechanism And two moving members, two moving member move when, in the stroke in certain section, two moving members by male part drive and one With movement, except the stroke in above-mentioned section, male part, which then turns to another location, makes two moving members not move together.

In order to realize above-mentioned and other purposes, the present invention also provides a kind of molds, include aforementioned mold shift motion control Mechanism processed and a template group, the template group include two templates, are respectively combined with one of moving member.

Thereby, above-mentioned mold shift motion control mechanism will accurately control the position of template and mobile row in mold Journey without using spring, can help to reduce the tolerance of workpiece and reduce cost of equipment maintenance.

Description of the drawings

Fig. 1 is the stereoscopic schematic diagram of inventive die shift motion control mechanism.

Fig. 2 is the three-dimensional exploded view of inventive die shift motion control mechanism.

Fig. 3 is the sectional view of inventive die.

Fig. 4 to Fig. 7 is the continuous action schematic diagram of inventive die.

Fig. 8 is the partial sectional view of another embodiment of inventive die.

Specific embodiment

It please refers to Fig.1 to Fig. 3, following embodiments provide a kind of mold shift motion control mechanism, can be with a template group group It closes and is used as a mold.Such as Fig. 3, template group includes one first template 11, one second template 12 and a third template 13.Institute The template or template group stated refer to the component of the mold for shaping workpiece, such as are used in ejection formation, and template may be into Type has for local surfaces directly to be contacted with workpiece and houses the die cavity of workpiece or template may be with other groups with die cavity Part assembling is fixed.In general template is plate-like, but its length, width and height size does not have necessary special ratios, can according to workpiece or The demand adjustment geometry external form and size of board.In order to which workpiece is allowed to be molded and take out in die cavity, template group can be moved along one Direction d it is mobile and molded, mold closing or it is mobile after the programs such as reprocessing, one first template 11, one second template 12 and 1 the Three templates 13 can be moved along moving direction d.In other possible embodiments of the invention, according to different process requirements, template group The first template and the second template may also only be included or other templates may be included.

It please refers to Fig.1 and Fig. 2, the mold shift motion control mechanism includes a fixed module, two male parts 30,30 ', two 60,60 ', one first movement part 70 of top 40,40 ', two actuators, 50,50 ', two pushing and pressing part, one second moving member 80 and one Third moving member 90, wherein, two male parts, 30,30 ', two top, 40,40 ', two actuator 50,50 ' and two pushing and pressing parts 60, 60 ' are symmetrically arranged positioned at the both sides of the second moving member 80, therefore the description below is by based on unilateral structure content, separately The structure content of half can then be found in symmetrical position.

Fixed module includes one first fixing piece 21 and one second fixing piece 22, and fixed module is assembled in for other assemblies, For being further assembled in board.In the present embodiment, 21 and second fixing piece 22 of the first fixing piece is independent of one another, Ke Yifen Be not assembled in board, for example, respectively in assembling figure 3 board fixed plate 14,15, however, combining the first fixing piece with another component It is made to be fixed to each other or by the first fixing piece and the second fixing piece person of being molded as one with the second fixing piece, also without can not.It should First fixing piece 21 has a first sliding groove 211 and a limiting slot 212, which has a second sliding slot 221, Middle the first sliding groove 211 includes one first leading portion sliding slot and one first back segment sliding slot, and the first leading portion sliding slot is located at limiting slot 212 and the Between one back segment sliding slot, and limiting slot 212 is connected with the first sliding groove 211, and the first fixing piece 21 has two inclined-planes 213,213 ', It is located at the both sides of the first back segment sliding slot respectively, makes the width of the first back segment sliding slot from the first leading portion sliding slot along moving direction d flarings, Second sliding slot 221 include one second leading portion sliding slot and one second back segment sliding slot, the second fixing piece 22 also have two inclined-planes 222, 222 ', respectively positioned at the both sides of the second back segment sliding slot, make the width of the second back segment sliding slot from the second leading portion sliding slot along moving direction d Flaring.In addition, first, second leading portion sliding slot is respectively provided with the parallel wall surface of a pair of of essence.

Male part 30 is rotatablely arranged at first movement part 70, makes male part 30 that can be rotated around its male part shaft 31, And male part shaft 31 can together be moved with the first movement part 70；Male part 30 is placed in the first sliding groove 211, makes male part 30 can be moved, and make first movement part 70 by the limiting of the first fixing piece 21 and its first sliding groove 211 along moving direction d It can equally be moved along moving direction d；The male part 30 has a stopper 32, is the radial direction extension towards its male part shaft 31 And go out；As shown in figure 3, being limited by the first fixing piece 21 when two male part 30,30 ' is positioned at the first leading portion sliding slot, make this Two stoppers 32,32 ' are close to each other to be held in a coupling position；As shown in Figures 4 and 5, when two male part is moved along moving direction d It when moving to the first back segment sliding slot, then can be rotated around respective male part shaft 31,31 ', make two stopper 32,32 ' remote each other From and to releasing position rotation.

Top 40 is set to second moving member 80, and more specifically, top 40,40 ' is to take shape in second respectively The symmetrical slope of 80 both sides of moving member, and two inclined-planes are tapered on moving direction d, top 40 is pushed against in the gear of male part 30 Portion 32 so that second top 40 when coupling position of stopper 32 can push against male part 30 along moving direction.Top 40 with The surface that male part 30 contacts with each other favours moving direction d, specifically, what top 40 contacted with each other with male part 30 There is the angle more than 0 degree and less than 90 degree between surface and the moving direction so that when top 40 is resisted against male part 30, Male part 30 is acted on by a rotating torque and has the trend rotated around male part shaft 31.

Actuator 50 is rotatablely arranged at third moving member 90, and actuator 50 is made to be rotated around its actuator shaft 51, and Actuator shaft 51 can together be moved with third moving member 90；Actuator 50 is placed in second sliding slot 221, make actuator 50 by The limiting of second fixing piece 22 and second sliding slot 221 and can be moved along moving direction d, and be similarly subjected to third moving member 90 It limits and can be moved along moving direction d；Actuator 50 has a top 52, is the radial direction extension towards its actuator shaft 51 And go out；As shown in figure 3, being limited by the second fixing piece 22 when two actuator 50,50 ' is positioned at the second leading portion sliding slot, make this Two tops 52,52 ' close to each other are held in activated position；As shown in Figures 4 and 5, when two actuator 50,50 ' is along the side of movement When being moved to the second back segment sliding slot to d, then can be rotated around respective actuator shaft 51,51 ', but make two top 52,52 ' that This is rotated far from and to a release position.

Pushing and pressing part 60 is set to second moving member 80, more specifically, two pushing and pressing part 60,60 ' be separately formed in The symmetrical slope of second moving member, 80 end, and two inclined-planes flaring on moving direction d.Pushing and pressing part 60 is resisted against actuator 50 Top 52 so that this two top 52,52 ' when activated position actuator 50,50 ' can along moving direction d push against pushing and pressing part 60th, 60 ', and then push against the second moving member 80.Pushing and pressing part 60 favours the moving direction with the surface that actuator 50 contacts with each other D so that actuator 50 is pushed against via top 52 when the pushing and pressing part 60, actuator 50 by a rotating torque act on and with around it The trend that actuator shaft 51 rotates.

The first movement part 70 with male part 30 is moved and can be moved relatively along moving direction d first fixing piece 21 together It is dynamic；The first movement part 70 with the first template 11 for being combined, and the combination is to instigate two components that can move together, institute It states to combine and includes but not limited to be fixed to each other or enable two portions by two components using screw, bolt or other similar assemblies Part is molded as one, and in the present embodiment, first movement part 70 has several mounting holes, consolidates the first template 11 using screw Due to first movement part 70.

Second moving member 80 is removably received limiting slot 212, and the side wall of the second moving member 80 is resisted against limiting Slot 212 makes the second moving member 80 that can be moved relative to the first fixing piece 21 along moving direction d, one of second moving member 80 End has pushing and pressing part 60,60 ' to be provided thereon, and the other end is then used to be combined with the second template 12.

Third moving member 90 with actuator 50 is moved and can be moved relative to the second fixing piece 22 along moving direction d together； The third moving member 90 is similar to first movement part and the first template for being combined with third template 13, third moving member 90 with Third template 13 is fixed to each other using screw in the present embodiment, and but it is not limited to this.

Please refer to Fig.3, mold stroke control mechanism provided by the present invention is available in mold, to drive including First template 11, the template group of the second template 12 and third template 13 move, and control the shift motion of each template, In, first movement part 70 is combined with the first template 11, and the second moving member 80 is combined with the second template 12, third moving member 90 and Three templates 13 combine, and the first template 11, the second template 12 and the position of third template 13 and shift motion is made to be moved completely with first Moving part 70, the second moving member 80 are corresponding with third moving member 90.

Before the first template 11, the second template 12 is driven to be moved with third template 13, as shown in figure 3, third moving member 90 Positioned at third initial position, actuator 50 is located at actuator initial position, and the top of pushing and pressing part 60 and actuator 50 is against second Moving member 80 is located at the second initial position, male part 30 be located at male part initial position and by Documents Department and top 40 against, First movement part 80 is located at the first initial position.

When being intended to that the first template 11, the second template 12 is driven to move with third template 13, ejection formation can be utilized first Mold push rod or oil compression rod in machine are pushed against in third template 13 or third moving member 90, make third moving member 90 along moving direction D is moved, as shown in Figure 3 and Figure 4 so that 90 continuity area of third moving member action moving part 50, pushing and pressing part 60, the second moving member 80th, top 40, male part 30 and first movement part 70 are moved along moving direction d, wherein, actuator 50 divides with male part 30 Not by the second fixing piece 12 and the first fixing piece 11 against and cannot rotate, and moved along moving direction d.

When the first movement stroke that first movement part 70 moves along moving direction a predetermined length reaches first movement position When, as shown in figure 4, the male part stroke that male part 30 also moves an equal length reaches male part shift position, the second movement The second shift motion that part 80 moves an equal length reaches the second shift position, top 40 is made also to move together, at this point, coupling Component 30 moves into the first back segment sliding slot by the first leading portion sliding slot, makes coupling position that male part 30 can be as shown in Figure 4 to Fig. 5 Shown releasing position rotation, makes male part 30 be detached from top 40 and supports, and contacted with the inclined-plane 213 of the first fixing piece； As shown in figs. 4 and 5, one can be obtained by male part 30 and the contact surface of top 40 when male part 30 is supported by top 40 Rotating torque, and male part 30 is enable to be rotated from coupling position to releasing position, part 30 to be coupled is detached from top 40 and supports Behind top, male part 30 moves no longer when top 40 pushes against along moving direction d.It is noted that Fig. 5 is for only for ease of Illustrate and male part 30 is shown in releasing position, since the rotating torque that male part 30 is born comes from top 40 and coupling Pushing and pressing effect between component 30, male part 30 reach behind male part shift position can 40 and second moving member 80 of top into It is gradually rotated during one moved further from coupling position towards releasing position, and releasing position may not necessarily be moved to reach.

Please refer to Fig. 5 and Fig. 6, after male part 30 is rotated towards releasing position, 40 and second moving member 80 of top into one Moved further cannot drive male part 30 to be moved together along moving direction d, and the second moving member 80 can be come from third movement The pushing and pressing of part 90 and further move to reach shown in fig. 6 via the second forward stroke by the second shift position along moving direction Two end positions, male part 30 then stay in original place when the second 80 further movement of moving member with first movement part 70, change speech It, the second moving member 80 can be moved along moving direction d in the second shift motion and the second forward stroke, when the second moving member 80 exists When being moved in the second shift motion, first movement part 70 moves together；When the second moving member 80 reaches the second shift motion and the Behind the second shift position having a common boundary between two forward strokes, first movement part 70 no longer moves together with the second moving member 80.

Please refer to Fig.3, Fig. 6 and Fig. 7, when the second moving member by the second initial position via the second shift motion and second before When being moved to the second end position into stroke, as shown in fig. 6, pushing and pressing part 60 is also moved together, actuator 50 moves an identical length The actuator stroke of degree reaches actuator shift position, and the third shift motion that third moving member 90 moves an equal length reaches Third shift position at this point, actuator 50 moves into the second back segment sliding slot by the second leading portion sliding slot, makes actuator 50 can be by scheming Activated position shown in 6 turns to release position shown in Fig. 7, is detached from actuator 50 and pushing and pressing part 60 and supports, and with second The inclined-plane 222 of fixing piece contacts；As shown in Figures 6 and 7, push against when pushing and pressing part 60 can be by actuator 50 and pushing and pressing for actuator 50 The contact surface in portion 60 obtains a rotating torque, and actuator 50 is enable to be rotated from activated position to release position, makes actuator 50 no longer drive pushing and pressing part 60 to move along moving direction d.Similar to the male part in Fig. 5, Fig. 7 is merely for convenience and purposes of illustration and incites somebody to action Actuator 50 is shown in release position, since rotating torque comes from the pushing and pressing effect between actuator 50 and pushing and pressing part 60, Actuator 50 can further move after actuator shift position is reached in third moving member 90 and actuator 50 along moving direction When, it is gradually rotated from activated position towards release position, and release position may not necessarily be moved to reach.

Fig. 7 is please referred to, after actuator 50 is rotated towards release position, the further movement of third moving member 90 and actuator 50 Pushing and pressing part 60 cannot be driven to be moved together along moving direction d, third moving member 90 can be come from Jet forming machine or class Third is further moved to reach via third forward stroke by third shift position along moving direction and is terminated like the pushing and pressing of board Position, 60 and second moving member 80 of pushing and pressing part then stay in original place, in other words, third when third moving member 90 is further mobile Moving member 90 can be moved along moving direction d in third shift motion and third forward stroke, when third moving member 90 is moved in third When being moved in dynamic stroke, the second moving member 80 moves together, advances when third moving member 90 reaches third shift motion with third Behind the third shift position having a common boundary between stroke, the second moving member 80 no longer moves together with third moving member 90.

Above description is summarized, mold shift motion control mechanism provided in this embodiment can be installed on board, by board Drive the movement of third moving member, using actuator and male part it is rotatable whether controlled, moved on third moving member edge When direction is moved, first movement part and the second moving member sequentially can stop moving after the stroke of a mobile predetermined length, and first The length of the first movement stroke of moving member is equivalent to the length that male part moves in the first leading portion sliding slot, the second moving member The total length of second shift motion and the second forward stroke is equivalent to the length that actuator moves in the second leading portion sliding slot, for Accurately control the shift motion and position of first movement part, the second moving member with third moving member.

In the above-described embodiments, first movement part, the second moving member and third moving member are to be respectively used to combine the first mould Plate, the second template and third template, and three template movements can be driven.In a possible embodiment, the template group in mold is only Containing first, second template, mold shift motion control mechanism also only contains the first fixing piece, first movement part, male part, supports Top and the second moving member, at this time mold push rod can push against the second moving member or the second template and template group is driven to do opening and closing mould Start；Template group containing have more than three templates when, then can based on the mold shift motion control mechanism of above-described embodiment, It repeats to set multigroup first fixing piece, first movement part, male part and top in the direction of movement, as shown in figure 8, to divide Shift motion and the position of each template are not controlled.

In the above-described embodiments, male part is respectively provided with symmetrically arranged two groups with top and actuator with pushing and pressing part, Average effect can be obtained in the viewpoint that power acts on and power is transmitted, however, in other possible embodiments of the invention, Can also be only comprising one group of male part and top and actuator and pushing and pressing part, and formed using fixed module along moving direction D keeps the path of motion of the second moving member, can obtain the similar using effect of above-described embodiment along the guiding face or guide rail stretched.

In the above-described embodiments, male part is rotatablely arranged at first movement part, and top is set to the second moving member, Male part is rotatablely arranged at the second moving member however, changing, top is set to first movement part, also falls within feasible；It is similar Ground changes actuator being set to the second moving member, and pushing and pressing part is set to third moving member, also falls within feasible.

More than content is based on, it can be found that the mold shift motion control mechanism of the present invention can control the shifting of each template Dynamic stroke and position, and without the use of spring, contribute to reduction technology door and maintenance cost, actually in processing and manufacturing technology deeply Has the practical technique of potential.

Claims (10)

1. a kind of mold shift motion control mechanism, suitable for a template group is driven to be moved along a moving direction, mold movement row Process control mechanism includes：

One fixed module；

One male part, the male part can be coupled with respect to the fixed module along the moving direction from a male part initial position via one Part stroke is moved to a male part shift position, which can be around a male part shaft in one when the male part shift position It is rotated between coupling position and a releasing position, the male part is solid by this in the male part initial position and the male part stroke Cover half block limits and is maintained at the coupling position；

One top, the top can be moved relative to the fixed module along the moving direction, which is located at the coupling position The male part can mutually be supported with the top when putting, when so that the male part is moved in the male part stroke with the top one With movement, the top is supported with the male part disengaging when which is located at the releasing position；

One first movement part can be moved relative to the fixed module along the moving direction；

One second moving member can be moved relative to the fixed module along the moving direction；

Wherein, which is rotatablely arranged at the first movement part and the second moving member one of which, which sets It is placed in the first movement part and the second moving member wherein another one.

2. mold shift motion control mechanism as described in claim 1, wherein, it should when which mutually supports with the top Male part is acted on by the rotating torque from the coupling position towards the releasing position.

3. mold shift motion control mechanism as described in claim 1, wherein, the table which mutually supports with the male part Face favours the moving direction.

4. mold shift motion control mechanism as described in claim 1, the wherein male part be rotatablely arranged at this first Moving member, the top are set to second moving member, which can be along the moving direction in one second shift motion With being moved in one second forward stroke, second shift motion is identical with the male part stroke length.

5. mold shift motion control mechanism as claimed in claim 4 further includes an actuator, a pushing and pressing part and a third and moves Moving part, the actuator can be moved with respect to the fixed module along the moving direction from an actuator initial position via an actuator stroke It moves to an actuator shift position, which can be around an actuator shaft in an activated position when actuator shift position It is rotated between a release position, which is limited in the actuator initial position and the actuator stroke by the fixed module Position and be maintained at the activated position, the actuator can mutually be supported with the pushing and pressing part when which is located at the activated position, make this Actuator can move when being moved in the actuator stroke together with the pushing and pressing part, this is pushed away when which is located at the release position Support is supported with actuator disengaging, which can move relative to the fixed module along the moving direction；

Wherein, which is rotatablely arranged at the third moving member, which is set to second moving member, the third Moving member can along the moving direction in a third shift motion with being moved in a third forward stroke, the length of the third shift motion Degree is identical with the total length of second shift motion and second forward stroke.

6. mold shift motion control mechanism as claimed in claim 5, wherein, it should when which mutually supports with the pushing and pressing part Actuator is acted on by the rotating torque from the activated position towards the release position.

7. mold shift motion control mechanism as claimed in claim 5, wherein, the table which mutually supports with the actuator Face favours the moving direction.

8. mold shift motion control mechanism as described in claim 1, the wherein male part be rotatablely arranged at this second Moving member, the top are set to the first movement part, which can be along the moving direction in one second shift motion With being moved in one second forward stroke, second shift motion is identical with the male part stroke length.

9. a kind of mold includes the mold shift motion control mechanism and a template described in Claims 1-4 and any one of 8 Group, the template group include one first template and one second template, which is combined with first template, second movement Part is combined with second template.

10. a kind of mold, comprising the mold shift motion control mechanism and a template group described in any one of claim 5 to 7, The template group includes one first template, one second template and a third template, which is combined with first template, should Second moving member is combined with second template, which is combined with the third template.