CN206644373U - The matched moulds order controller and mould of a kind of anticollision - Google Patents

Abstract

The matched moulds order controller and mould of a kind of anticollision, wherein matched moulds order controller include the first fixed block and the second fixed block and the first pull bar and the second pull bar that are slidably matched with the first fixed block and the second fixed block；The side longitudinal direction correspondence position of first fixed block and the second fixed block is provided with the first slideway for being slidably matched with the first pull bar, and the opposite side longitudinal direction correspondence position of the first fixed block and the second fixed block is provided with the second slideway coordinated with the second pull bar；First slideway and the second slideway are equipped with the screens block linkage unit that screens limits the first pull bar and the second pull bar stretching motion；Mould includes the matched moulds order controller of die assembly and the anticollision being connected on die assembly.Each component of the utility model control mould carries out progressive ordered movement, avoids collision and impact to each other, improves the reliability and durability of mould molding production, ensures that mould normally produces, and is also beneficial to the yields for improving product.

Description

The matched moulds order controller and mould of a kind of anticollision

Technical field

It the utility model is related to mould control field, more particularly to the matched moulds order controller and mould of a kind of anticollision Tool.

Background technology

Mould is the conventional formed product instrument in high-volume industrial production, and it is widely used in being molded, is blow molded, squeezes Go out, die casting, forging and stamping, smelting, production field, the control of die quality and mould production process such as punching press directly affect The yields of formed product.

Because product category is various, the mould species for formed product is also very more, for complex product and multiplexing Skill is molded, it is often necessary to which by multiple die assembly cooperating manufactures, this just needs die sinking to mould, matched moulds process to be controlled； More yet with die assembly, also or control mould needs special mechanism, because existing mold production process lacks in order Matched moulds and die sinking process control technology, it is easy to cause between die assembly and auxiliary body collide, cause the mould longevity Life and formed product are influenced to different extents so that the stability and yield rate of mould molding processing reduce.

Utility model content

The purpose of this utility model is to provide the matched moulds order controller and mould of a kind of anticollision, and it has structure Reliably, the advantages of simple and easy to use and mould anti-collision effect is good.

The utility model is achieved like this, a kind of matched moulds order controller of anticollision, it is characterised in that it is wrapped Include the first fixed block and the second fixed block and the first pull bar being slidably matched with the first fixed block and the second fixed block and Two pull bars；The side longitudinal direction correspondence position of first fixed block and the second fixed block is provided with the to be slidably matched with the first pull bar The opposite side longitudinal direction correspondence position of one slideway, the first fixed block and the second fixed block is provided with second coordinated with the second pull bar and slided Road；First slideway and the second slideway are equipped with the screens block linkage that screens limits the first pull bar and the second pull bar stretching motion Component.

The screens block linkage unit include be slidably arranged in the first fixed block be used for screens limit the first pull bar and The first linkage screens block on the second pull bar top, and the screens that is used for being slidably arranged in the second fixed block limit the first pull bar With the second linkage screens block of the second pull bar bottom；One end of first linkage screens block and the second linkage screens block is in the second slideway Interior flexible, the other end is provided with compression spring；First linkage screens block and the second linkage screens block are equipped with and the first pull bar card The screens groove that position coordinates, and the screens groove and the contraposition of the first slideway are set.

It is provided with the middle part of first pull bar and coordinates the first clamping of screens spacing with the screens groove on the first linkage screens block Groove；The bottom of first pull bar, which has to match somebody with somebody with the screens groove of the second linkage screens block, merges the compression spring for making the second linkage screens block First locating convex block of compression.

Be provided with the second clamping stopper slot in the middle part of second pull bar, the second clamping stopper slot and second link screens block the The flexible one end clamping matching of two slideways；The top of second pull bar has the second locating convex block, the second locating convex block and first Dynamic screens block is in the flexible one end fits of the second slideway and compresses the compression spring of the first linkage screens block.

The utility model also describes a kind of mould, and it includes die assembly and the anticollision being connected on die assembly Matched moulds order controller.

The die assembly includes the first die assembly, the second die assembly and the 3rd mould set gradually from the top down Component, wherein the first die assembly is fixedly connected with the upper end of the first pull bar, the second die assembly and the first fixed block and Two fixed blocks are fixedly connected, and the 3rd die assembly is fixedly connected with the lower end of the second pull bar.

When second die assembly contacts with the 3rd die assembly, the second clamping stopper slot and the second linkage screens Block is fixed in one end clamping matching that the second slideway stretches.

When second die assembly and non-contact the first die assembly, the first clamping stopper slot and the first linkage block Screens groove on the block of position coordinates screens to fix.

Preferably：The second clamping stopper slot and the second linkage screens block pass through wedge in one end that the second slideway stretches Shape structure clamping matching.

Preferably：Screens groove on the first clamping stopper slot and the first linkage screens block passes through wedge structure screens Coordinate.

The beneficial effects of the utility model are：The utility model be provided with structure it is reliable, can be achieved mold movement control in order The matched moulds order controller of the anticollision of system, it can be combined with existing multicompartment mould well, control mould each group Part progressive ordered movement during matched moulds and die sinking, avoids collision to each other, also reduces in mould production because of collision belt The impact come, the reliability and durability of mould molding production are improved, ensure that mould normally produces, be also beneficial to improve product Yields.

Brief description of the drawings

Fig. 1 is the section of structure of the utility model matched moulds order controller one embodiment.

Fig. 2 is the isometric structural representation of embodiment illustrated in fig. 1.

Fig. 3 is the structural representation of the utility model mould one embodiment.

Fig. 4 is the structural front view of embodiment illustrated in fig. 1.

The structural representation that the first die assembly is opened when Fig. 5 is die sinking.

The structural representation that the second die assembly and the 3rd die assembly are opened when Fig. 6 is die sinking

Fig. 7 is the structural representation after the completion of die sinking.

Structural representation when Fig. 8 is matched moulds.

Second die assembly and the structural representation of the 3rd die assembly contact when Fig. 9 is matched moulds.

Figure 10 is structural representation when matched moulds is completed.

In figure, the 1, first fixed block 2, the second fixed block 3, the first pull bar 4, the second pull bar 5, the first slideway 6, Two slideways 7, first linkage screens the 8, second linkage screens of block block 9, compression spring 10, screens groove 11, the first die assembly 12nd, the second die assembly 13, the 3rd die assembly.

Embodiment

Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.

As depicted in figs. 1 and 2, the utility model is achieved in that the matched moulds sequential control dress of wherein described anticollision First for putting including the first fixed block 1 and the second fixed block 2 and being slidably matched with the first fixed block 1 and the second fixed block 2 The pull bar 4 of pull bar 3 and second；The side longitudinal direction correspondence position of the fixed block 2 of first fixed block 1 and second is provided with and the first pull bar The opposite side longitudinal direction correspondence position of 3 the first slideways 5 being slidably matched, the first fixed block 1 and the second fixed block 2 is provided with to be drawn with second The second slideway 6 that bar 4 coordinates；The slideway 6 of first slideway 5 and second is equipped with screens and limits the first pull bar 3 and the second pull bar 4 The screens block linkage unit of stretching motion；Utilize the cooperation of the first pull bar 3 and the first slideway 5 so that the first pull bar 3 can be along The lengthwise movement of first slideway 5, the second same pull bar 4 also can thus meet mould along the lengthwise movement of the second slideway 6 Matched moulds and the restriction of die sinking running track；Recycling screens block linkage unit can limit the first pull bar 3 respectively and the second pull bar 4 divides Not along the order of the first slideway 5 and the telescopic displacement of the second slideway 6, so as to control the rhythm and pace of moving things that matched moulds molds well, set of molds is avoided Collision between part；In the specific implementation, the screens block linkage unit includes being arranged on the first slideway 5 and the second slideway 6 Several screens blocks, the screens block can coordinate with the neck on the first slideway 5 and the second slideway 6, and several screens blocks It is longitudinally disposed along the first slideway 5 and the second slideway 6, by rationally setting the position of screens block, the first pull bar 3 can be achieved the The coordination that one slideway 5 moves and the second pull bar 4 moves in the second slideway 6, the screens block control in certain screens block linkage unit Mode processed includes automatically controlled and Mechanical course, and the former can use multiple automatically controlled screens blocks under being controlled by same control module, Automatically controlled screens block is controlled to carry out screens in slideway appropriate location in pull bar using control module；The latter then uses advantage of lower cost Purely mechanic control, embodiment is detailed further below；The result of implementation of certain screens block linkage unit is not limited to Above-mentioned two situations, in addition to it is automatically controlled control with mechanical mixture, as long as disclosure satisfy that the first pull bar 3 the first slideway 5 move with And second pull bar 4 the sequence of motion of the second slideway 6 control.

1 and Fig. 2 elaborates the mechanical structure of screens block linkage unit below in conjunction with the accompanying drawings；The screens block linkage groups Part includes being slidably arranged in the first linkage for being used for screens and limiting the first pull bar 3 and the top of the second pull bar 4 in the first fixed block 1 Screens block 7, and be used for screens and limit the first pull bar 3 and the bottom of the second pull bar 4 the be slidably arranged in the second fixed block 2 Two linkage screens blocks 8；One end of first linkage screens block 7 and the second linkage screens block 8 is stretched in the second slideway 6, the other end It is provided with compression spring 9；First linkage screens block 7 and the second linkage screens block 8 are equipped with the card with the clamping matching of the first pull bar 3 Position groove 10, and the slideway 5 of screens groove 10 and first contraposition is set；In order to be better achieved clamping matching, in first pull bar 3 Portion is provided with the first clamping stopper slot 301 for coordinating screens with the screens groove 10 on the first linkage screens block 7；Under first pull bar 3 Portion, which has to match somebody with somebody with the screens groove 10 of the second linkage screens block 8, merges the compression spring 9 for making the second linkage screens block 8 is compressed first Locating convex block 302；The middle part of second pull bar 4 is provided with the second clamping stopper slot 401, the second clamping stopper slot 401 and second One end clamping matching that dynamic screens block 8 stretches in the second slideway 6；The top of second pull bar 4 has the second locating convex block 402, the Two locating convex blocks 402 and the first linkage screens block 7 in the flexible one end fits of the second slideway 6 and make the first linkage screens block 7 Compression spring 9 is compressed；When mounted, first pull bar 3 is slidably matched along the first slideway 5 and screens groove 10, when the first drawing When the first clamping stopper slot 301 on bar 3 is fixed with the screens of screens groove 10, now the first pull bar 3 vertically moves, only when second The first linkage screens of the second locating convex block 402 contact block 7 of pull bar 4, forces the compression spring 9 of the first linkage screens block 7 to be compressed, The first clamping stopper slot 301 departs from screens groove 10 during the first linkage screens block 7 moves, so as to realize the first pull bar 3 spacing releasings, and now the second clamping stopper slot 401 on the second pull bar 4 is stretched with the second linkage screens block 8 in the second slideway 6 The screens of contracting end is fixed, and the second pull bar 4 can not just vertically move, only when the first locating convex block 302 of the lower end of the first pull bar 3 contacts The screens groove 10 of second linkage screens block 8, forces the compression spring 9 of the second linkage screens block 8 to be compressed, now the second linkage screens Block 8 will retract in the telescopic end of the second slideway 6, release to the spacing of the second pull bar 4, could now realize the vertical of the second pull bar 4 To displacement；Due in the first linkage screens block 7 and the second linkage screens block 8 and the interlocked of the first pull bar 3 and the second pull bar 4 With so that motion progressive can be controlled and carried out, and avoided that unordered impact occurs, protected die assembly well.

As shown in figs. 3-10, the utility model also includes a kind of mould, and it includes die assembly and is connected to set of molds The matched moulds order controller of above-mentioned anticollision on part；Specific attachment structure be the die assembly include from the top down according to The first die assembly 11, the second die assembly 12 and the 3rd die assembly 13 of secondary setting, wherein the first die assembly 11 and The upper end of one pull bar 3 is fixedly connected, and the second die assembly 12 is fixedly connected with the first fixed block 1 and the second fixed block 2, and the 3rd Die assembly 13 is fixedly connected with the lower end of the second pull bar 4；In order to which die sinking and matched moulds, the utility model also pairing is better achieved The structure of mould order controller is optimized, described when second die assembly 12 contacts with the 3rd die assembly 13 One end clamping matching that second clamping stopper slot 401 stretches with the second linkage screens block 8 in the second slideway 6 is fixed；Described second When the die assembly 11 of die assembly 12 and first is non-contact, the first clamping stopper slot 301 and first links on screens block 7 Screens groove 10 coordinates screens to fix；In die sinking, the first step is as shown in figure 5, first open the first die assembly 11, and now first Pull bar 3 will constantly stretch along the first slideway 5 with the first die assembly 11, until the first positioning of the lower end of the first pull bar 3 Projection 302 touches the screens groove 10 of the linkage screens of contact second block 8, as shown in fig. 6, the first locating convex block 302 forces second The compression spring 9 of linkage screens block 8 is compressed, and now the second linkage screens block 8 will retract in the telescopic end of the second slideway 6, and second One end screens that the linkage screens of clamping stopper slot 401 and second block 8 stretches in the second slideway 6 departs from, and is drawn so as to release second Bar 4 it is spacing, could now realize the length travel of the second pull bar 4, as long as moving down the 3rd die assembly 13, the second pull bar 4 just can be along the slide downward of the second slideway 6, so as to realize the separation of the 3rd die assembly 13 and the second die assembly 12, such as Fig. 7 It is shown, it is final to realize die sinking control.

When needing matched moulds, the first step is as shown in figure 8, first lean on the first die assembly 11 to the matched moulds of the second die assembly 12 Closely, now the first pull bar 3 will constantly stretch into along the first slideway 5 with the first die assembly 11, until first pull bar 3 The first clamping stopper slot 301 fixed with the screens of screens groove 10 on the first linkage screens block 7, the now He of the first die assembly 11 First pull bar 3 can not just move, and the first die assembly 11 and the second die assembly 12 are in contactless state；Second step is as schemed Shown in 9, the 3rd die assembly 13 is stretched into constantly close to the second die assembly 12 with the second pull bar 4, until on the second pull bar 4 The second clamping stopper slot 401 with being fixed with the second linkage screens block 8 in the telescopic end screens of the second slideway 6, and now just the Three die assemblies 13 and the second die assembly 12 contact matched moulds, and second locating convex block 402 and first on the top of the second pull bar 4 The screens block 7 that links coordinates in the end thereof contacts that the second slideway 6 stretches, because the 3rd die assembly 13 and the second die assembly 12 close In mold process, the first die assembly 11 and the second die assembly 12 are in contactless state, so as to avoid two-way conjunction well The greater impact that modular belt is come, the effect through the second locating convex block 402 to the first linkage screens block 7, forces the first linkage screens block 7 Compression spring 9 compress, the first clamping stopper slot 301 links screens with first during the first linkage screens block 7 moves The screens groove 10 of block 7 departs from, and so as to realize the 3 spacing releasing of the first pull bar, it is continuous that the first pull bar 3 can continue on the first slideway 5 Stretch into, until the first die assembly 11 and the matched moulds of the second die assembly 12, as shown in Figure 10.

Certainly, the utility model matched moulds order controller control process is not limited thereto, and is also not limited to above-mentioned knot The mould of structure, when needing to be controlled more die assemblies, according to said structure can rationally set and improve, certainly The matched moulds order controller of above-mentioned electric-controlled type can also be used, as long as when mould runs to appropriate location, controls screens block With being fixed with separating for clamping stopper slot, it becomes possible to the anti-laddering control touched of mould is realized well, specific real Shi Shi, the linkage screens of the second clamping stopper slot 401 and second block 8 pass through wedge structure in one end that the second slideway 6 stretches Clamping matching；The first clamping stopper slot 301 is matched somebody with somebody with the screens groove 10 on the first linkage screens block 7 by wedge structure screens Close, the reliability being fixed can be improved, improve the stability of mould structure.

Claims (10)

1. the matched moulds order controller of a kind of anticollision, it is characterised in that it includes the first fixed block (1) and the second fixed block (2) the first pull bar (3) and the second pull bar (4) and being slidably matched with the first fixed block (1) and the second fixed block (2)；

The side longitudinal direction correspondence position of first fixed block (1) and the second fixed block (2), which is provided with to slide with the first pull bar (3), matches somebody with somebody The opposite side longitudinal direction correspondence position of the first slideway (5) closed, the first fixed block (1) and the second fixed block (2) is provided with to be drawn with second The second slideway (6) that bar (4) coordinates；First slideway (5) and the second slideway (6) are equipped with screens and limit the first pull bar (3) With the screens block linkage unit of the second pull bar (4) stretching motion.

2. the matched moulds order controller of anticollision as claimed in claim 1, it is characterised in that the screens block linkage unit Including first for screens limitation the first pull bar (3) and the second pull bar (4) top being slidably arranged in the first fixed block (1) Link screens block (7), and the screens that is used for being slidably arranged in the second fixed block (2) limits the first pull bar (3) and the second drawing The second linkage screens block (8) of bar (4) bottom；

One end of first linkage screens block (7) and the second linkage screens block (8) is stretched in the second slideway (6), and the other end is set There is compression spring (9)；

First linkage screens block (7) and the second linkage screens block (8) are equipped with the screens groove with the first pull bar (3) clamping matching (10), and the screens groove (10) is set with the first slideway (5) contraposition.

3. the matched moulds order controller of anticollision as claimed in claim 2, it is characterised in that in first pull bar (3) Portion is provided with the first clamping stopper slot (301) for coordinating screens with the screens groove (10) on the first linkage screens block (7)；

The bottom of first pull bar (3) matches somebody with somebody to merge with the screens groove (10) with the second linkage screens block (8) makes the second linkage screens The first locating convex block (302) of compression spring (9) compression of block (8).

4. the matched moulds order controller of anticollision as claimed in claim 3, it is characterised in that in second pull bar (4) Portion is provided with the second clamping stopper slot (401), and the second clamping stopper slot (401) is with the second linkage screens block (8) in the second slideway (6) Flexible one end clamping matching；

The top of second pull bar (4) has the second locating convex block (402), the second locating convex block (402) and the first linkage screens block (7) the second slideway (6) stretch one end fits and compress the compression spring (9) of the first linkage screens block (7).

5. a kind of mould, it includes the conjunction of the anticollision described in die assembly and the claim 4 being connected on die assembly Mould order controller.

6. mould as claimed in claim 5, it is characterised in that the die assembly includes first set gradually from the top down Die assembly (11), the second die assembly (12) and the 3rd die assembly (13), wherein the first die assembly (11) is drawn with first The upper end of bar (3) is fixedly connected, and the second die assembly (12) is fixedly connected with the first fixed block (1) and the second fixed block (2), 3rd die assembly (13) is fixedly connected with the lower end of the second pull bar (4).

7. mould as claimed in claim 6, it is characterised in that second die assembly (12) and the 3rd die assembly (13) During contact, the second clamping stopper slot (401) is with the second linkage screens block (8) in the flexible one end screens of the second slideway (6) Coordinate and fix.

8. mould as claimed in claim 7, it is characterised in that second die assembly (12) and the first die assembly (11) When non-contact, the first clamping stopper slot (301) coordinates screens to consolidate with the screens groove (10) on the first linkage screens block (7) It is fixed.

9. mould as claimed in claim 8, it is characterised in that the second clamping stopper slot (401) and the second linkage screens Block (8) passes through wedge structure clamping matching in one end that the second slideway (6) stretches.

10. mould as claimed in claim 9, it is characterised in that the first clamping stopper slot (301) and the first linkage screens Screens groove (10) on block (7) passes through wedge structure clamping matching.