CN205951194U - Prevent tenesmic structure of oblique kicking block in plastic mould - Google Patents

Abstract

The utility model relates to a prevent tenesmic structure of oblique kicking block in plastic mould, its difference lies in: it is including back model core, the part is inlayed in the oblique kicking block of back model in -core, an oblique ejector pin for inciting somebody to action outside the ejecting back model core of oblique kicking block, and locate the support piece who is used for supporting oblique kicking block on the model core of back, the kicking block has the upper end and the lower extreme of relative setting to one side, and relative first side that sets up and second side, the first side of oblique kicking block is located to the ejector pin to one side, the second side of kicking block is provided with the first block structure that draws to one side, support piece fixes on the model core of back and is located the upper end of oblique kicking block, support piece has the first side with the first side syntropy setting of kicking block to one side, it inclines to reach the second that sets up with oblique kicking block second side syntropy, support piece's second side is provided with draws the block structure with the first block structure complex second that draws. The utility model discloses both avoid the mould internals to take place to interfere, prevented the tenesmus of oblique kicking block again.

Description

The structure of slanted kicking block tenesmus is prevented in plastic mould

Technical field

This utility model is related to plastic mould field, especially prevents the structure of slanted kicking block tenesmus in plastic mould.

Background technology

The very big slanted kicking block of size is often had on large-sized plastic rubber mould, slanted kicking block needs outside by angle ejector rod ejection core, has In a little moulds, angle ejector rod is located at the side of slanted kicking block, but this structure is very unstable, slanted kicking block meeting in ejection process Occur tenesmus, but if angle ejector rod may be interfered with other parts located at the centre position of described slanted kicking block again or because Locus are limited and cannot realize.

Content of the invention

The purpose of this utility model is to overcome the shortcoming of prior art, and providing in a kind of plastic mould prevents under slanted kicking block The structure of pendant, had both avoided mould inside part and had interfered, and prevented slanted kicking block to drop again.

For solving above technical problem, the technical solution of the utility model is：Slanted kicking block tenesmus is prevented in plastic mould Structure, its difference is：It includes rear mold core, the slanted kicking block being partly embedded in described rear mold core, is used for oblique top Block ejects the angle ejector rod outside described rear mold core and is used for supporting the support member of described slanted kicking block on described rear mold core, Described slanted kicking block has the top and bottom being oppositely arranged and the first side being oppositely arranged and the second side, described angle ejector rod located at First side of described slanted kicking block, the second side of described slanted kicking block is provided with the first pulling block structure, and described support member is fixed on described On rear mold core and be located at the upper end of described slanted kicking block, described support member has the arranging in the same direction with described slanted kicking block first side Side and the second side arranging in the same direction with described slanted kicking block second side, the second side of described support member is provided with and described first Second pulling block structure of pulling block respective outer side edges.

By above technical scheme, described slanted kicking block offers a fitting recess, described first pulling block structure passes through screw element It is fixed in described fitting recess, described first pulling block structure is in substantially inverted L-shaped, described second pulling block structure is in substantially backward L-shaped, institute State second draw block structured one end to be fixed in support member by screw element, the other end stretches in described fitting recess and with described the One pulling block respective outer side edges.

By above technical scheme, described first pulling block structure includes the first horizontal edge and the first vertical edge, described first horizontal edge Lower surface is configured to the first supporting surface, and described second pulling block structure includes the second horizontal edge and the second vertical edge, described second horizontal edge Upper surface be configured to described first supporting surface cooperation the second supporting surface, described first supporting surface and the second supporting surface equal It is and described angle ejector rod angle of inclination identical inclined-plane.

By above technical scheme, described angle ejector rod has two.

By above technical scheme, its also include rear baffle plate, the connecting post for baffle plate and rear mold core after connecting and Ejector retainner plate between described rear baffle plate and rear mold core, one end of described angle ejector rod is connected with described ejector retainner plate, another End is connected with described slanted kicking block.

Contrast prior art, beneficial features of the present utility model are：The structure of slanted kicking block tenesmus is prevented in this plastic mould, Even if angle ejector rod, located at the side of slanted kicking block, also will not produce the phenomenon of slanted kicking block tenesmus, need not be by angle ejector rod located at slanted kicking block On the equilbrium position at middle part, it is to avoid angle ejector rod is interfered with the other parts in mould, and the side of slanted kicking block is by oblique top Bar provides support, opposite side to be provided by support member and support, and effectively prevent slanted kicking block tenesmus, Stability Analysis of Structures, improves mould Service life.

Brief description

Fig. 1 is this utility model embodiment partial structural diagram；

Fig. 2 is the Section A-A figure of Fig. 1；

Fig. 3 is the section B-B enlarged drawing of Fig. 2；

Fig. 4 is the first pulling block architecture schematic diagram in this utility model embodiment；

Fig. 5 is the second pulling block architecture schematic diagram in this utility model embodiment；

Wherein：1- rear mold core, 2- slanted kicking block（The upper end of 2a- slanted kicking block, the lower end of 2b- slanted kicking block, 2c- slanted kicking block First side, the second side of 2d- slanted kicking block, 201- the first pulling block structure（2011- first horizontal edge（2011a- first supporting surface）、 2012- first vertical edge）, 202- fitting recess, 203- screw element）, 3- angle ejector rod, 4- support member（First side of 4a- support member, 4b- Second side of support member, 401- the second pulling block structure（4011- second horizontal edge（4011a- second supporting surface）, 4012- second erect Side）, 402- screw element）, baffle plate, 6- connecting post, 7- ejector retainner plate after 5-.

Specific embodiment

Combine accompanying drawing below by specific embodiment this utility model is described in further detail.

Refer to Fig. 1 to Fig. 5, prevent the structure of slanted kicking block tenesmus in this utility model embodiment plastic mould, it includes Rear mold core 1, the slanted kicking block 2 being partly embedded in described rear mold core 1, for slanted kicking block 2 is ejected outside described rear mold core 1 Angle ejector rod 3 and be used for supporting the support member 4 of described slanted kicking block 2 on described rear mold core 1, described slanted kicking block 2 has relatively The upper end 2a of setting and lower end 2b and the first side 2c being oppositely arranged and the second side 2d, described angle ejector rod 3 is located at described slanted kicking block The first side 2c, the second side 2d of described slanted kicking block is fixed with the first pulling block structure 201, and described support member 4 is fixing in the rear On model core 1 and be located at the upper end 2a of described slanted kicking block, described support member 4 is had and is arranged in the same direction with described slanted kicking block the first side 2c The first side 4a and the second side 4b arranging in the same direction with described slanted kicking block the second side 2d, the second side 4b of described support member fixes There is the second pulling block structure 401 with the cooperation of described first pulling block structure 201.

Preferably, described slanted kicking block 2 offers a fitting recess 202, described first pulling block structure 201 passes through screw element 203 are fixed in described fitting recess 202, and described first pulling block structure 201 is in substantially inverted L-shaped, and described second pulling block structure 401 is big Causing is in backward L-shaped, and one end of described second pulling block structure 401 is fixed in support member 4 by screw element 402, the other end stretches into institute State in fitting recess 202 and coordinate with described first pulling block structure 201.

Specifically, described first pulling block structure 201 includes the first horizontal edge 2011 and the first vertical edge 2012, described first horizontal edge 2011 lower surface is configured to the first supporting surface 2011a, and described second pulling block structure 401 includes the second horizontal edge 4011 and second Vertical edge 4012, the upper surface of described second horizontal edge 4011 is configured to the second support with described first supporting surface 2011a cooperation Face 4011a, described first supporting surface 2011a and the second supporting surface 4011a are oblique with described angle ejector rod 3 angle of inclination identical Face.

Preferably, described angle ejector rod 3 has two.

Specifically, its also include rear baffle plate 5, for connect after baffle plate 5 and rear mold core 1 connecting post 6 and located at Ejector retainner plate 7 between described rear baffle plate 5 and rear mold core 1, one end of described angle ejector rod 3 is connected with described ejector retainner plate 7, another End is connected with described slanted kicking block 2.

Above content is further description this utility model done with reference to specific embodiment it is impossible to assert Of the present utility model it is embodied as being confined to these explanations.Ordinary skill people for the technical field belonging to this utility model For member, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as Belong to protection domain of the present utility model.

Claims (5)

1. prevent in plastic mould slanted kicking block tenesmus structure it is characterised in that：It include rear mold core, be partly embedded in described after The slanted kicking block of model in-core, for slanted kicking block is ejected angle ejector rod outside described rear mold core and located at described rear mold core For supporting the support member of described slanted kicking block, described slanted kicking block has the top and bottom being oppositely arranged and be oppositely arranged Side and the second side, described angle ejector rod is provided with first and draws located at the first side of described slanted kicking block, the second side of described slanted kicking block Block structure, described support member is fixed on described rear mold core and is located at the upper end of described slanted kicking block, described support member have with The first side and the second side arranging in the same direction with described slanted kicking block second side that described slanted kicking block first side is arranged in the same direction, described Second side of support member is provided with the second pulling block structure with described first pulling block respective outer side edges.

2. prevent in plastic mould as claimed in claim 1 slanted kicking block tenesmus structure it is characterised in that：On described slanted kicking block Offer a fitting recess, described first pulling block structure is fixed in described fitting recess by screw element, described first pulling block structure It is in substantially inverted L-shaped, described second pulling block structure is in substantially backward L-shaped, and described second draws block structured one end to fix by screw element In support member, the other end stretch in described fitting recess and with described first pulling block respective outer side edges.

3. prevent in plastic mould as claimed in claim 2 slanted kicking block tenesmus structure it is characterised in that：Described first pulling block Structure includes the first horizontal edge and the first vertical edge, and the lower surface of described first horizontal edge is configured to the first supporting surface, and described second draws Block structure includes the second horizontal edge and the second vertical edge, and the upper surface of described second horizontal edge is configured to and described first supporting surface cooperation The second supporting surface, described first supporting surface and the second supporting surface are and described angle ejector rod angle of inclination identical inclined-plane.

4. prevent in plastic mould as claimed in claim 1 slanted kicking block tenesmus structure it is characterised in that：Described angle ejector rod has Two.

5. prevent in the plastic mould as described in any one of Claims 1-4 slanted kicking block tenesmus structure it is characterised in that：Its Also include rear baffle plate, for connect after baffle plate and rear mold core connecting post and located at described rear baffle plate and rear model Ejector retainner plate between core, one end of described angle ejector rod is connected with described ejector retainner plate, the other end is connected with described slanted kicking block.