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CN-224210321-U - Structure of straight top with inclined top

CN224210321UCN 224210321 UCN224210321 UCN 224210321UCN-224210321-U

Abstract

The utility model provides a structure of a straight ejection belt inclined ejector, which comprises an ejector block assembly, an inclined ejector rod and an inclined guide rod, wherein the ejector block assembly comprises a large ejector block, a small ejector block and an inclined ejector positioned between the large ejector block and the small ejector block, the large ejector block is movably connected with a fixed die plate, the inclined ejector block is movably connected with the large ejector block, the small ejector block is movably connected with the inclined ejector block, the large ejector block, the small ejector block and the inclined ejector together form a product molding surface, a reserved gap is reserved between the small ejector block and the inclined ejector, the reserved gap is used for accommodating a longitudinal extension part of a product, the longitudinal ejector rod is connected with the bottom of the large ejector block, the inclined guide rod is connected with the inclined ejector, and the transverse guide rod penetrates through the small ejector block and is connected with the inclined ejector.

Inventors

  • LAI BIN
  • LUO WEI
  • CAO ZHANHUI
  • CHEN YAO
  • HE SHIWEI

Assignees

  • 广东东亚电器有限公司

Dates

Publication Date
20260508
Application Date
20250530

Claims (7)

  1. 1. The utility model provides a structure of straight top area inclined top, its application is on the fixed die plate, its characterized in that includes: The pushing block assembly comprises a large pushing block, a small pushing block and an inclined top positioned between the large pushing block and the small pushing block, wherein the large pushing block is movably connected with the fixed template, the inclined top is movably connected with the large pushing block, and the small pushing block is movably connected with the inclined top; the longitudinal ejection rod is connected with the bottom of the large pushing block; the oblique guide rod is connected with the oblique top; the transverse guide rod penetrates through the small pushing block and is connected with the inclined top; And the inclined ejector moves obliquely upwards along the length direction of the inclined guide rod, and the inclined ejector is far away from the small ejector block along the length direction of the transverse guide rod so as to perform secondary ejection and increase the reserved gap.
  2. 2. The straight-topped pitched roof structure of claim 1, wherein: the right side surface of the inclined top is also provided with a plurality of positioning blocks; The upper side surface of the small pushing block is provided with a plurality of positioning grooves which are matched with the positioning blocks; and when the mold is closed, the positioning block is positioned in the positioning groove.
  3. 3. The straight-topped pitched roof structure of claim 2, wherein: The right side face of the inclined top is provided with a plurality of first protruding blocks, and the first protruding blocks are matched with the longitudinal through holes in the longitudinal extension parts.
  4. 4. The straight-topped pitched roof structure of claim 2, wherein: the right side of the inclined top is also provided with a bearing part, and the bearing part is positioned below the positioning block; When the mold is closed, the upper part of the small pushing block is attached to the upper side face of the supporting part, and the lower part of the small pushing block is attached to the right side face of the supporting part.
  5. 5. The straight-topped pitched roof structure of claim 1, wherein: The product is also provided with a transverse extension part, and a transverse through hole is formed in the transverse extension part; When the die is assembled, the transverse extension part is attached to the upper side face of the small pushing block, a second protruding block is arranged on the upper side face of the small pushing block, and the second protruding block is matched with the transverse through hole.
  6. 6. The straight-topped pitched roof structure of claim 1, wherein: The left side surface of the inclined top is provided with a first inclined surface, and the inclined direction of the first inclined surface is the same as the length direction of the inclined guide rod; The right side of big ejector pad is equipped with the second inclined plane, the second inclined plane with first inclined plane phase-match.
  7. 7. The straight-topped pitched roof structure of claim 6, wherein: The straight ejection structure with the inclined ejection further comprises a longitudinal guide rod, wherein the longitudinal guide rod penetrates through the bottom of the large pushing block and is connected with the bottom of the small pushing block; the inclined guide rod passes through the bottom of the large pushing block and is connected with the bottom of the inclined top.

Description

Structure of straight top with inclined top Technical Field The utility model belongs to the technical field of dies, and particularly relates to a straight-top structure with an inclined top. Background The product shown in fig. 1 has a complex structure, and a corresponding bending extension part structure is arranged on one side of the product, so that if the product is opened by using a common inclined top structure, normal demolding is difficult to realize. In order to perform normal demolding on the product structure, the application provides a novel inclined top structure to solve the problem that the product is difficult to demold. Disclosure of utility model In order to overcome the technical defects, the utility model provides a straight-top structure with an inclined top, which can solve the technical problem of smooth demoulding. The utility model is realized according to the following technical scheme: The utility model provides a structure with an inclined top on a straight top, which is applied to a fixed template and comprises the following components: The pushing block assembly comprises a large pushing block, a small pushing block and an inclined top positioned between the large pushing block and the small pushing block, wherein the large pushing block is movably connected with the fixed template, the inclined top is movably connected with the large pushing block, and the small pushing block is movably connected with the inclined top; the longitudinal ejection rod is connected with the bottom of the large pushing block; the oblique guide rod is connected with the oblique top; the transverse guide rod penetrates through the small pushing block and is connected with the inclined top; And the inclined ejector moves obliquely upwards along the length direction of the inclined guide rod, and the inclined ejector is far away from the small ejector block along the length direction of the transverse guide rod so as to perform secondary ejection and increase the reserved gap. Compared with the prior art, the straight ejection belt inclined ejection structure has the advantages that the whole ejector block assembly is ejected for the first time under the action of the longitudinal ejector rod, so that a product is partially separated from the fixed die plate, then the inclined ejector moves obliquely upwards, the small ejector block is far away from the inclined ejector, and the secondary ejection is performed, and the reserved gap is increased, so that enough space is available for demolding of the longitudinal extension part of the product, and the problem that the product is difficult to demold is solved. In one embodiment, the right side surface of the inclined top is also provided with a plurality of positioning blocks; The upper side surface of the small pushing block is provided with a plurality of positioning grooves which are matched with the positioning blocks; and when the mold is closed, the positioning block is positioned in the positioning groove. In one embodiment, the right side of the oblique top is provided with a plurality of first protruding blocks, and the plurality of first protruding blocks are matched with the longitudinal through holes on the longitudinal extension part. In one embodiment, a supporting part is further arranged on the right side of the inclined top, and the supporting part is positioned below the positioning block; When the mold is closed, the upper part of the small pushing block is attached to the upper side face of the supporting part, and the lower part of the small pushing block is attached to the right side face of the supporting part. In one embodiment, the product is further provided with a lateral extension provided with a lateral through hole; When the die is assembled, the transverse extension part is attached to the upper side face of the small pushing block, a second protruding block is arranged on the upper side face of the small pushing block, and the second protruding block is matched with the transverse through hole. In one embodiment, a first inclined plane is arranged on the left side surface of the inclined top, and the inclined direction of the first inclined plane is the same as the length direction of the inclined guide rod; The right side of big ejector pad is equipped with the second inclined plane, the second inclined plane with first inclined plane phase-match. In one embodiment, the straight-top structure with the inclined top further comprises a longitudinal guide rod, wherein the longitudinal guide rod passes through the bottom of the large pushing block and is connected with the bottom of the small pushing block; the inclined guide rod passes through the bottom of the large pushing block and is connected with the bottom of the inclined top. Drawings The utility model is described in further detail below with reference to the attached drawing figures, wherein: FIG. 1 is a perspective view of a product of the present utility model