CN211389983U - Split type assembling die - Google Patents

Abstract

The utility model discloses a mould, especially a split type assembling die. It includes the fixed die plate, the movable mould board, the slider, first sliding template, the second sliding template, third sliding template and fourth sliding template, the product groove has all been seted up in the relative one side of fixed die plate and movable mould board, the hole of moulding plastics has been seted up in running through on the fixed die plate, mould plastics hole and product groove UNICOM, the movable mould board is the cuboid, four spouts have been seted up in running through to four sides of movable mould board to product groove direction, be provided with the slider in the spout respectively, the slider towards the one end in product groove respectively with first sliding template, the second sliding template, third sliding template and fourth sliding template fixed connection, the one side that the fixed die plate was kept away from to the movable mould board is connected with the electric jar, the one end that the product groove was kept away from to. The mold core with more complicated inner shape can be formed by more than three templates, so that the injection molding part with more complicated shape can be conveniently produced.

Description

Split type assembling die

Technical Field

The utility model discloses a mould, especially a split type assembling die.

Background

A mold is a tool used to make a shaped article, the tool being made up of various parts, different molds being made up of different parts. The processing of the appearance of an article is realized mainly through the change of the physical state of a formed material. When the injection molding mold is used for production, because the space structure of the injection molding product is complex, the upper mold plate and the lower mold plate in the traditional mold are independently used to form the mold core part, so that some characteristics of the injection molding product cannot be well embodied, and the mold is difficult to demould even if the characteristics are embodied.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a split type assembling die can utilize the more complicated mould benevolence of the more interior shape of three above template constitution to be convenient for produce the injection molding that the shape is more complicated.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a split type assembling die, includes fixed die plate, movable mould board, slider, first sliding template, second sliding template, third sliding template and fourth sliding template, the product groove has all been seted up in the one side that fixed die plate and movable mould board are relative, run through on the fixed die plate and seted up the hole of moulding plastics, mould plastics hole and product groove UNICOM, the movable mould board is the cuboid, the movable mould board runs through four spouts to four sides of product groove direction and has seted up four spouts, be provided with the slider in the spout respectively, the slider towards the one end in product groove respectively with first sliding template, second sliding template, third sliding template and fourth sliding template fixed connection, the one side that the fixed die plate was kept away from to the movable mould board is connected with the electric jar, the one end that the product groove was kept away from to the slider is connected with the electric jar respectively.

Aforementioned split type assembling die, still be provided with the spout on the slider at first template place that slides, be provided with the slip table in the spout, the slip table is towards the fifth template that slides of one end fixedly connected with of product groove, fifth template and the third template that slides contradicts at the product groove medial surface and is connected, fifth template that slides is equipped with the inclined plane towards the one side of third template that slides, the conflict of fifth template that slides makes the third template that slides offset towards opposite one side, the one end that the product groove was kept away from to the slip table is connected with the electric jar.

In the split type combined die, the surface of the third sliding template, which is far away from the fifth sliding template, is provided with the plurality of conical holes.

In the split type combined die, the fixed die plate is provided with a plurality of water conveying channels for cooling water to pass through along the side surface.

According to the split type combined die, the non-opposite surfaces of the fixed die plate and the movable die plate are coated with the antirust paint.

Compared with the prior art, the utility model discloses an useful part lies in:

1) the utility model provides a split type combined die, which can utilize more than three templates to form a die core with more complex internal shape, thereby being convenient for producing injection molding pieces with more complex shapes;

2) the movable template is arranged to be a cuboid, and the four side surfaces of the movable template are provided with the sliding grooves communicated with the product groove in a penetrating mode, so that the first sliding template, the second sliding template, the third sliding template and the fourth sliding template slide on the movable template through the sliding blocks and form a space structure with the product groove, and injection molding pieces with more complex space structures can be produced;

3) the sliding groove is further formed in the sliding block where the first sliding template is located, the sliding table is arranged in the sliding groove, and one end, facing the product groove, of the sliding table is fixedly connected with the fifth sliding template, so that the fifth sliding template can collide with the third sliding template; the actions of the fixed die plate, the sliding block and the sliding table are respectively driven by an electric cylinder;

4) the third sliding template can be matched with other templates to form a conical spine which cannot be manufactured on the side surface of a conventional mold for an injection molding part, and after the fifth sliding template is separated from the injection molding part, the third sliding template loses the force generated by the interference of the fifth sliding template, so that the third sliding template can be separated from the conical spine of the injection molding part, and the smooth demolding is realized;

5) a plurality of water conveying pore channels for cooling water to pass through are formed in the side surface of the fixed template, so that the cooling system is convenient to accelerate the cooling of the injection molding part;

6) the antirust paint is coated on the non-opposite surfaces of the fixed template and the movable template, so that the whole mold can be more antirust, and the service life is prolonged.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic view of the structure at the third and fifth slip patterns.

The meaning of the reference numerals: 1. fixing a template; 2. moving the template; 3. a slider; 4. a first sliding template; 5. a second sliding template; 6. a third sliding template; 7. a fourth sliding template; 8. a product tank; 9. injection molding holes; 10. a chute; 11. a sliding table; 12. a fifth sliding template; 13. a bevel; 14. a conical bore; 15. a water carrying pore passage.

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Detailed Description

The embodiment of the utility model provides a: a split type combined die comprises a fixed die plate 1, a movable die plate 2, a sliding block 3, a first sliding die plate 4, a second sliding die plate 5, a third sliding die plate 6 and a fourth sliding die plate 7, wherein a product groove 8 is formed in one face of the fixed die plate 1 opposite to the movable die plate 2, an injection hole 9 is formed in the fixed die plate 1 in a penetrating mode, the injection hole 9 is communicated with the product groove 8, the movable die plate 2 is a cuboid, four sliding grooves 10 are formed in four side faces of the movable die plate 2 in the direction of the product groove 8 in a penetrating mode, sliding blocks 3 are arranged in the sliding grooves 10 respectively, one ends, facing the product groove 8, of the sliding blocks 3 are fixedly connected with the first sliding die plate 4, the second sliding die plate 5, the third sliding die plate 6 and the fourth sliding die plate 7 respectively, one face, far away from the fixed die plate 1, of the movable die plate 2 is connected with an electric cylinder, one ends, far away from the product groove 8, the action of fixed die plate 1 and slider 3 is driven by the electric cylinder respectively, through setting up movable die plate 2 into the cuboid to run through the spout 10 of seting up leading to product groove 8 in four sides of movable die plate 2, thereby make first movable die plate 4, second movable die plate 5, third movable die plate 6 and fourth movable die plate 7 slide on movable die plate 2 through slider 3 and form spatial structure with product groove 8, thereby can produce the injection molding that spatial structure is more complicated.

In the split type assembling die, the sliding block 3 where the first sliding template 4 is located is further provided with a sliding groove 10, the sliding groove 10 is internally provided with a sliding table 11, one end of the sliding table 11 facing the product groove 8 is fixedly connected with a fifth sliding template 12, the fifth sliding template 12 is in abutting connection with the third sliding template 6 on the inner side surface of the product groove 8, one surface of the fifth sliding template 12 facing the third sliding template 6 is provided with an inclined surface 13, the third sliding template 6 is offset towards the opposite surface due to the abutting of the fifth sliding template 12, one end of the sliding table 11 far away from the product groove 8 is connected with an electric cylinder, the sliding table 11 is driven by the electric cylinder, the sliding groove 10 is further arranged on the sliding block 3 where the first sliding template 4 is located, the sliding table 11 is arranged in the sliding groove 10, one end of the sliding table 11 facing the product groove 8 is fixedly connected with the fifth sliding template 12, therefore, the fifth sliding template can collide with the third sliding template 6, and the inclined surface 13 is arranged on one surface of the fifth sliding template 12 facing the third sliding template 6, so that the third sliding template 6 is deviated towards the opposite surface due to the collision of the fifth sliding template 12, the fifth sliding template 12 and the third sliding template 6 can be separated from the injection molding piece successively, the contact area of the single bodies is reduced, and the demolding is facilitated; the actions of the fixed die plate 1, the sliding block 3 and the sliding table 11 are respectively driven by an electric cylinder.

The first sliding template 4, the second sliding template 5, the third sliding template 6, the fourth sliding template 7 and the fifth sliding template 12 are all set to be in specific shapes according to injection molding pieces.

Split type assembling die, a plurality of circular cone hole 14 has been seted up to the one side that third sliding template 6 keeps away from fifth sliding template 12, has seted up a plurality of circular cone hole 14 through the one side that keeps away from fifth sliding template 12 at third sliding template 6 to make third sliding template 6 can cooperate other templates to form the circular cone spine that conventional mould can't make in the side to the injection molding, third sliding template 6 breaks away from the injection molding earlier at the fifth template after, owing to lose the power that fifth sliding template 12 contradicts and produces, thereby can break away from in the circular cone spine of injection molding, thereby realize drawing of patterns smoothly.

The split type assembling die is characterized in that the fixed die plate 1 is provided with a plurality of water conveying pore channels 15 for cooling water to pass through along the side surface, and the fixed die plate 1 is provided with a plurality of water conveying pore channels 15 for cooling water to pass through along the side surface, so that the cooling system is convenient to accelerate the cooling of injection molding parts.

Split type assembling die, the coating has the anti-rust paint on the non-opposite face of fixed die plate 1 and movable die plate 2, through the coating has the anti-rust paint on the non-opposite face at fixed die plate 1 and movable die plate 2 to make whole mould rust-resistant more, thereby improve life.

The utility model discloses a theory of operation:

the utility model discloses a with parts such as fixed die plate 1, movable mould board 2, slider 3, first sliding template 4, second sliding template 5, third sliding template 6 and fourth sliding template 7 assemble into a split type assembling die organically, utilize the more complicated mould benevolence of inside shape of the more constitution of template more than three to be convenient for produce the injection molding that the shape is more complicated. The utility model sets the movable template 2 as a cuboid, and sets sliding grooves 10 leading to the product groove 8 on four sides of the movable template 2 in a penetrating way, so that the first sliding template 4, the second sliding template 5, the third sliding template 6 and the fourth sliding template 7 slide on the movable template 2 through the sliding blocks 3 and form a space structure with the product groove 8, thereby being capable of producing injection molding pieces with more complex space structures; the sliding groove 10 is further formed in the sliding block 3 where the first sliding template 4 is located, the sliding table 11 is arranged in the sliding groove 10, and the end, facing the product groove 8, of the sliding table 11 is fixedly connected with the fifth sliding template 12, so that the fifth sliding template can collide with the third sliding template 6, and the inclined surface 13 is arranged on the surface, facing the third sliding template 6, of the fifth sliding template 12, so that the third sliding template 6 is deviated towards the opposite surface due to the collision of the fifth sliding template 12, and the fifth sliding template 12 and the third sliding template 6 can be separated from an injection molding part successively, so that the contact area of the single bodies is reduced, and demolding is facilitated; the third sliding template 6 can be matched with other templates to form a conical spine which cannot be manufactured by a conventional mold on the side surface of the injection molding part by arranging the plurality of conical holes 14 on the surface of the third sliding template 6 away from the fifth sliding template 12, and after the fifth sliding template 6 is separated from the injection molding part, the third sliding template 6 can be separated from the conical spine of the injection molding part due to the loss of the force generated by the interference of the fifth sliding template 12, so that smooth demolding is realized; a plurality of water conveying pore channels 15 for cooling water to pass through are arranged along the side surface of the fixed die plate 1, so that the cooling system is convenient to accelerate the cooling of the injection molding part; through coating the anti-rust paint on the non-opposite surfaces of the fixed die plate 1 and the movable die plate 2, the whole die can be more anti-rust externally, and the service life is prolonged.

Claims (5)

1. The utility model provides a split type assembling die, a serial communication port, including fixed die plate (1), movable mould board (2), slider (3), first template (4), second template (5), third template (6) and the fourth template (7) of sliding slide that slides, product groove (8) have all been seted up in fixed die plate (1) and movable mould board (2) relative one side, run through on fixed die plate (1) and seted up injection hole (9), injection hole (9) and product groove (8) UNICOM, movable mould board (2) are the cuboid, movable mould board (2) run through four spout (10) to four sides of product groove (8) orientation, be provided with slider (3) in spout (10) respectively, slider (3) towards the one end of product groove (8) respectively with first template (4), second template (5) of sliding, slide, Third sliding template (6) and fourth sliding template (7) fixed connection, the one side that fixed die plate (1) were kept away from in movable mould board (2) is connected with the electric jar, the one end that product groove (8) were kept away from in slider (3) is connected with the electric jar respectively.

2. The split type assembling die of claim 1, characterized in that still be provided with spout (10) on slider (3) at first slip template (4) place, be provided with slip table (11) in spout (10), slip table (11) are towards one end fixedly connected with fifth slip template (12) of product groove (8), fifth slip template (12) and third slip template (6) are contradicted at product groove (8) medial surface and are connected, fifth slip template (12) are equipped with inclined plane (13) towards the one side of third slip template (6), the conflict of fifth slip template (12) makes third slip template (6) offset towards opposite side, the one end that product groove (8) were kept away from in slip table (11) is connected with the electric jar.

3. The split type assembling die of claim 2, wherein a plurality of conical holes (14) are formed in one surface, away from the fifth sliding die plate (12), of the third sliding die plate (6).

4. The split type assembling die of claim 1, wherein the fixed die plate (1) is provided with a plurality of water carrying pore canals (15) along the side surface for cooling water to pass through.

5. The split combination die of claim 1, wherein the non-opposite surfaces of the fixed die plate (1) and the movable die plate (2) are coated with antirust paint.

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