CN212241929U - Die structure of thick-wall product - Google Patents

Abstract

The utility model relates to the technical field of mold, in particular to mold structure of thick wall product, the mould is including the first mold structure that is used for moulding plastics the core layer and the second mold structure that is used for moulding plastics the secondary layer of moulding plastics, and the core layer bottom of product has the location gusset along the periphery, thereby core layer edge shape realizes the core layer not translation in the die cavity with the die cavity edge phase-match of second mold structure, still has the positioning mechanism who is used for pushing down the product between second mold structure and the product the utility model provides a structure of moulding plastics is covered by self-align layering through product itself, does not increase unnecessary fixed knot and constructs and realize that the product is fixed and firm in the die cavity.

Description

Die structure of thick-wall product

Technical Field

The utility model relates to the technical field of mold, in particular to mold structure of thick wall product.

Background

In order to reduce the molding cycle of a transparent thick-wall part product in the modern automobile lamp industry, it is increasingly common to perform layered injection molding on the thick-wall part product; however, the layered injection molding has various limitations and defects, and the prior art has the defects that: (1) when the outer layer is wrapped and injected, a product welding line is generated, and the position of the welding line is difficult to be controlled at the tail end of the product when the upper layer and the lower layer are wrapped; the product has appearance defects of a welding line; (2) the injection molding pressures of the upper layer and the lower layer are difficult to balance, and the core layer is difficult to keep stable during wrapping injection molding, so that the core has a certain problem; (3) the upper layer and the lower layer need high pressure and low speed during injection molding, which affects the molding efficiency and limits the process range.

SUMMERY OF THE UTILITY MODEL

Core layer is difficult to the problem of stablizing when moulding plastics in order to solve the layering that prior art exists, the utility model provides a core layer stablizing's thick wall product's mould structure when realizing the layering and moulding plastics.

The utility model provides a technical scheme that its technical problem adopted is:

a mold structure of a thick-wall product is provided, the thick-wall product is provided with a core layer and a secondary injection layer positioned above and/or below the core layer, the mold comprises a first mold structure for injecting the core layer and a second mold structure for injecting the secondary injection layer, the edge shape of the core layer is matched with the edge of a mold cavity of the second mold structure so as to realize that the core layer does not translate in the mold cavity, and a positioning mechanism for pressing the product is further arranged between the second mold structure and the product.

Furthermore, the positioning mechanism comprises a positioning rib plate arranged at the bottom end of the core layer 11 of the product along the periphery, and the positioning rib plate of the core layer of the product is clamped between the fixed die and the movable die of the second die structure, so that the core layer is prevented from shaking in the die cavity of the second die structure.

Further, when the injection layers are arranged above and below the core layer, the inlet gate of the second mold is arranged on one side of the core layer, and the injection layers above and below the core layer are simultaneously injected by using the same runner or are independently injected by using different runners.

Furthermore, when the injection layers above and below the core layer are simultaneously injected by the same pouring gate, the edge of the positioning rib plate of the core layer is in close contact with the die cavity of the second die structure except the sprue position, so that the material flows of the upper layer and the lower layer of the core layer are not intersected during injection.

Furthermore, the edge of the core layer of the product is provided with a notch which is used as a sprue and communicated with the pouring gate, and the notch is simultaneously communicated with the cavities positioned at the upper layer and the lower layer of the core layer. So that the incoming gum stream remains flowing rapidly.

Furthermore, the notch is arranged at the middle position of the edge of the core layer along the length direction or the width direction. So that the glue feeding material flow is kept to be rapidly dispersed to the two sides in the center of the product, and the efficiency is high.

Furthermore, the shape of the notch is symmetrically arranged along the material flow direction, so that the material flow on two sides is uniform, and the quality of the injection molding product is high.

Further, the second mold structure is provided with a notch for preventing air trapping in the injection molding process.

Further, the notches are arranged at the opposite positions of the inlet gate.

Furthermore, the depth of the notch is 0.5-1 mm. Through setting up the notch, prevent to mould plastics the in-process and produce the trapping of gas, the quality of moulding plastics of the product of further assurance.

Has the advantages that:

(1) the utility model provides a structure for self-positioning, layering, covering and injection molding of a product, which realizes the positioning and stabilization of the product in a mold cavity without adding an extra fixing structure, simplifies the mold structure and saves the cost;

(2) the utility model realizes the product division into three layers, firstly moulds the core layer, and then carries out one-time injection molding to complete the injection molding of the upper layer and the lower layer at the same time, and has high efficiency;

(3) the utility model does not need to increase the positioning structure outside the product, greatly simplifies the product layout, saves the space in the mold and reserves sufficient space for arranging the pouring gates;

(4) the structure of dividing the upper layer and the lower layer is completely represented on the injection molding process, so that the process difficulty is greatly reduced, and the requirement on the injection molding process is reduced;

(5) the upper layer and the lower layer are completely divided, the layering proportion of products is not required to be considered, only the flow filling pressure and the retention condition in the die are required, and the design difficulty is simplified.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a product hierarchy;

FIG. 2 is a front view of the core layer;

FIG. 3 is a cross-sectional view taken along A-A of FIG. 2;

FIG. 4 is a front view of an entire thick-walled product;

FIG. 5 is a cross-sectional view taken along line D-D of FIG. 4;

FIG. 6 is a locating surface of the core layer in the mold cavity;

FIG. 7 is a schematic view of a primary gate entry and gate entry location;

FIG. 8 is a schematic view of the notch position;

fig. 9 is a schematic view of a second mold structure.

The method comprises the following steps of 1, thick-wall products, 11, a core layer, 111, positioning rib plates, 21, a primary gate, 22, a gate, 23, a notch, 3, a first die and 4, a second die

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise, and further, it is to be understood that when terms are used in this specification, they are used

"comprising" and/or "including" when used in this specification specify the presence of stated features, steps, operations, elements, components, and/or combinations thereof.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

For ease of description, spatially relative terms, such as

"above … …", "above … …", "on … …", "above", and the like, are used to describe the spatial relationship of one device or feature to another device or feature as shown in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It should be noted that the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and if not stated otherwise, the terms have no special meaning, and therefore, the scope of the present invention should not be construed as being limited.

A mold structure of a thick-wall product 1 is provided with a core layer 11 formed by primary injection molding and a secondary injection molding layer positioned above and/or below the core layer 11, the mold comprises a first mold structure for injection molding of the core layer 11 and a second mold structure for injection molding of the secondary injection molding layer, and the first mold structure is in a common mold form as long as the core layer 11 can be injected.

The edge shape of the core layer 11 is matched with the edge of the cavity of the second mold structure, so that the core layer 11 does not shift in the cavity, wherein the edge shape of the core layer 11 is matched with the edge of the cavity, that is, the edge shape of the core layer 11 is not required to be the same as the edge of the cavity as long as a part of the edge of the core layer 11 is ensured to be the same as the edge of the cavity, of course, the edge shape of the core layer 11 can be the same as the edge of the cavity, and a positioning mechanism for pressing the product is further arranged between the second mold structure and the product. The positioning mechanism can be a pressing plate arranged on the mold and the like. The utility model discloses in, adopt product self location, it is concrete, positioning mechanism includes the positioning rib plate 111 of the 11 bottoms edge peripheries of core layer of product setting, thereby product core layer 11's positioning rib plate 111 presss from both sides between the cover half and the movable mould of second mould structure realizes that core layer 11 does not rock in the die cavity of second mould structure.

When the injection layers are arranged above and below the core layer 11, the inlet gate of the second mold is arranged at one side of the core layer 11, and the injection layers above and below the core layer 11 are simultaneously injected by using the same runner or are independently injected by using different runners. When independently moulding plastics, the material stream of core layer 11 top and below can not intersect in any position, like this, can realize the polychrome even moulding plastics of many materials, makes the utility model discloses a second mould structure adaptability is wider.

In this embodiment, the injection layers above and below the core layer 11 are injected simultaneously by using the same runner, and the edge of the positioning rib plate 111 of the core layer 11 is removed from the sprue 22 and is in close contact with the mold cavity of the second mold structure, so that the material flows of the upper layer and the lower layer of the core layer 11 do not intersect during injection.

The edge of the core layer 11 of the product is provided with a notch 23, the notch 23 is used as an inlet gate 22 to be communicated with a pouring channel, and the notch is simultaneously communicated with the cavities at the upper layer and the lower layer of the core layer 1. The notch is provided at the center of the edge of the core layer 11 in the length or width direction. The shape of the slot 23 is symmetrically arranged along the material flow direction. The groove 23 serves as an inlet 22, but the groove 23 is filled after the injection molding is completed to form a part of the product.

The second mold structure is provided with a notch for preventing air trapping in the injection molding process. The notches are provided at opposite positions of the inlet gate 22. The depth of the notch is 0.5-1 mm.

As an embodiment of the present invention, referring to FIGS. 1 to 7, a mold structure for a thick-walled product, the thick-walled product 1 is divided into a core layer 11, an upper layer and a lower layer, the core layer 11 is dome-shaped as a whole, the upper layer of the product is located above the core layer 11, the lower layer of the product is located below the core layer 11,

as fig. 1, the utility model provides a mould structure scheme that 1 layering of lens thick wall product was moulded plastics realizes once moulding plastics two layers and covers, moulds plastics the core b part (being core layer 11) of thick wall product earlier, accomplishes the structure of product drainage layering when moulding plastics the core layer 11 of thick wall product and moulds plastics, then once moulds plastics and covers when accomplishing a part (being the upper strata) and c part (being the lower floor).

The mould structure of the utility model divides and stratifies the product to ensure that the upper layer and the lower layer are completely separated;

the black area of the structure shown in fig. 6 serves as a positioning structure of a product in a mold cavity, after the movable mold and the fixed mold are closed, the fixed core does not move in the mold cavity, layering isolation of material flow is performed, and sealing effect of the material flow is performed;

the area E of the black thick line shown in FIG. 7 is the gate of the core layer 1 of the product after the first injection molding, and the area F is the gate 22 of the product after the second injection molding and completing the upper and lower injection molding, and the center of the short side of one side of the product is designed to be the glue inlet position and is recessed into the product so that the glue inlet flow is rapidly dispersed to the outside at the speed of the center of the product.

As shown in fig. 8, a notch which is about 0.5-1 mm lower than the periphery is arranged at the black square frame at the opposite side of the F inlet gate to be used as an exhaust port at the tail end of the second plastic injection flow so as to avoid the air trapping defect;

the utility model discloses a thick wall spare layering covers a preferred structural scheme of injection molding method: firstly, after the thick-wall product 1 is layered, the product is positioned in the die cavity as the edge part of the product, and a positioning structure is not required to be additionally arranged for fixing and positioning; secondly, the layered structure of the thick-wall product 1 completely divides the material flows of the upper layer and the lower layer of the product, the material flows do not meet at the injection molding end, the material flows during secondary injection molding are independent and do not influence, the influence among the material flows does not need to be considered, and the speed, the position and the pressure are hardly limited; thirdly, the arrangement of the position and the structure of the pouring gate fully considers the space of a glue inlet system and the risks of air trapping, retention and the like of material flow; fourthly, the first injection molding and the second injection molding can realize high-speed injection molding without using a high-pressure low-speed injection molding scheme, so that the injection molding efficiency of a product is improved;

as shown in fig. 9, a schematic diagram of a second mold structure is shown, where the first mold 3 is a fixed mold, the second mold 4 is a movable mold (of course, the movable mold and the fixed mold may be interchanged), a mold cavity on the fixed mold is used for an upper layer of an injection product, a mold cavity on the movable mold below the core layer 11 is used for a lower layer of the injection product, the positioning rib plate 111 is positioned, the gate 22 is located at the position of the notch 22, the mold structure is arranged, one gate can be arranged to complete the arrangement design of two cavities, so as to improve the mold efficiency, not only can realize the synchronous covering of the upper layer and the lower layer of a single product, but also can realize the synchronous injection molding.

It should be understood that the above description of the specific embodiments is only for the purpose of explanation and not for the purpose of limitation. Obvious changes or variations caused by the spirit of the present invention are within the scope of the present invention.

Claims (10)

1. A mold structure of a thick-wall product is characterized in that the thick-wall product (1) is provided with a core layer (11) formed by first injection molding and a secondary injection layer positioned above and/or below the core layer, the mold comprises a first mold structure for injecting the core layer (11) and a second mold structure for injecting the secondary injection layer, the edge shape of the core layer (11) is matched with the edge of a mold cavity of the second mold structure so as to realize that the core layer (11) does not translate in the mold cavity, and a positioning mechanism for pressing the product is arranged between the second mold structure and the product.

2. The mold structure of a thick-walled product according to claim 1, wherein: the positioning mechanism comprises positioning rib plates (111) arranged at the bottom end of the core layer (11) of the product along the periphery, and the positioning rib plates (111) of the core layer (11) of the product are clamped between the fixed die and the movable die of the second die structure, so that the core layer (11) is prevented from shaking in the die cavity of the second die structure.

3. The mold structure of a thick-walled product according to claim 1, wherein: when the injection layers are arranged above and below the core layer (11), the inlet gate of the second mold is arranged on one side of the core layer (11), and the injection layers above and below the core layer (11) are simultaneously injected by using the same pouring channel or are independently injected by using different pouring channels.

4. A mold structure of a thick-walled product according to claim 3, wherein: when the injection layers above and below the core layer (11) are simultaneously injected by the same pouring gate, the edge of the positioning rib plate (111) of the core layer (11) except the sprue (22) is tightly contacted with the mold cavity of the second mold structure, so that the material flows of the upper layer and the lower layer of the core layer (11) are not intersected during injection.

5. The mold structure of a thick-walled product according to claim 4, wherein: a notch (23) is formed in the edge of a core layer (11) of the product, the notch (23) is used as an inlet gate (22) and communicated with a pouring gate, and the notch (23) is simultaneously communicated with cavities on the upper layer and the lower layer of the core layer (11).

6. A mold structure of a thick-walled product according to claim 5, wherein: the notch is arranged at the middle position of the edge of the core layer (11) along the length direction or the width direction.

7. The mold structure of a thick-walled product according to claim 6, wherein: the shape of the slot (23) is symmetrically arranged along the material flow direction.

8. The mold structure of a thick-walled product according to claim 7, wherein: the second mold structure is provided with a notch for preventing air trapping in the injection molding process.

9. The mold structure of a thick-walled product according to claim 8, wherein: the notches are arranged at opposite positions of the gate (22).

10. The mold structure of a thick-walled product according to claim 8, wherein: the depth of the notch is 0.5-1 mm.

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