CN201604271U - Injection mould with insert structure - Google Patents

Abstract

The utility model discloses an injection mould with an insert structure, which comprises a fixed mould, a movable mould, an insert, a sliding block and a mould cavity. The fixed mould with an assembly hole is far away from the mould cavity; a connection plane is formed between the assembly hole and the mould cavity; the sliding block installed on the movable mould is provided with an insertion hole; and the insert installed on the fixed mould is provided with a fixed end, an inserting end and a table shoulder, wherein the fixed end extends into the assembly hole of the fixed mould, the inserting end is inserted into the insertion hole of the sliding block, and the table shoulder is abutted onto the connection plane. By matching the table shoulder with the connecting plane, the injection mould provides sealing and gluing functions, thereby preventing molten materials inside the mould cavity from spilling and simultaneously decreasing split lines. In addition, as the position of the insert of the injection mould on the fixed mould can be automatically adjusted within the range allowed by gaps, the inserting end of the insert can be ensured to be smoothly inserted into the insertion hole of the sliding block when in mould assembly.

Description

Injection mold with mold insert structure

[technical field]

The utility model relates to a kind of injection mold with mold insert structure, particularly relevant for a kind of injection mold that can reduce the plasthetics die parting line and have the matched moulds adaptive structure.

[background technology]

Usually plasthetics is made by injection mold, and injection mold can mass-produced this advantage makes that extensive use is to producing and various fields in life for plasthetics, but people are more and more exquisite for the outward appearance of plasthetics.Therefore, just need constantly original mould to be improved, to improve the quality of plasthetics.

Please refer to the Facad structure cut-away view of existing injection mold 9 shown in Figure 1; The side structure cut-away view of existing injection mold 9 shown in Figure 2; And the perspective view of the cover half shown in Fig. 3 A to 3E 90, mold insert 94 and slide block 96.

Please refer to the existing injection mold 9 of Figure 1 and Figure 2, it includes a cover half 90, a dynamic model 92, at least one mold insert 94, at least one slide block 96 and a mold cavity 98.As shown in Figure 3A, cover half 90 has an assembly hole 901, and this assembly hole 901 is adjacent to mold cavity 98, and this assembly hole 901 has two arc edges 902,903 in the face of mold cavity 98.Shown in Fig. 3 B, mold insert 94 has the arc section 943 that a stiff end 941, an insertion end 942 and are connected and fixed end 941 and insertion end 942, mold insert 94 is fixed on the cover half 90 by a securing member (not shown), and the stiff end 941 of mold insert 94 is contained in the assembly hole 901 of cover half 90, insertion end 942 is stretched out in this assembly hole 901, but the arc section 943 of mold insert 94 can be connected with these two arc edges 902,903 of assembly hole 901.Slide block 96 is mounted on the dynamic model 92 in the mode of sliding, and also is formed with a jack 960 (shown in Fig. 3 C) on slide block 96.When cover half 90 and dynamic model 92 matched moulds, slide block 96 moves towards the central horizontal of dynamic model 92, in the then vertical jack 960 that inserts on the slide block 96 of mold insert 94, thereby make and form mold cavity 98 between cover half 90, dynamic model 92, mold insert 94 and the slide block 96 behind the matched moulds, when injected plastics material be injected into this mold cavity 98 and through the cooling after, just in mold cavity 98, form a plasthetics, take out or eject automatically this plasthetics by the action of die sinking at last.

Find that at present above-mentioned existing injection mold 9 has following defective:

First: the surperficial die parting line of plasthetics is many.Please refer to shown in Fig. 3 D, because existing mold insert 94 structures (shown in Fig. 3 D) when matched moulds, arc section 943 meetings of this mold insert 94 are connected with the common sealing of carrying out to mold cavity 98 with two arc edges 902,903 of the assembly hole 901 of cover half 90, prevent that injected plastics material from flowing out mold cavity 98.But this sealing mode can make and be formed with at least three die parting lines on the outer surface of the plasthetics after the moulding, and article one die parting line is for being connected the straight line that produces 944, second and three die parting line for owing to mold insert 94 is connected the circular arc line 902,903 that produces with two circular arc limits of the assembly hole 901 of cover half 90 with a straight line of the assembly hole 901 of cover half 90 owing to mold insert 94.So many die parting line 944,902,903 not only influences the outward appearance of plasthetics, and the section that also has influence on plastic cement system device is poor.

Second: the matched moulds difficulty is big.This is because when injection mo(u)lding, the cover half 90 (comprising mold insert 94) and the actual temperature of slide block 96 variant (temperature contrasts of about 20 degree), the degree that makes the steel material of cover half 90 and slide block 96 expand with heat and contract with cold is different, thereby cause the off(-)center of the jack 960 on mold insert 94 and the slide block 96, the position of related features that this dislocation produces is difficult to guarantee that mold insert 94 can enter in the slide block 96 smoothly when producing, the situation of injection mold 9 wearing and tearing appears causing because of interference fits in the lighter, and heavy person then occurs causing injection mold 9 stuck because of mold insert 94 and jack 960 skews.Moreover, when existing injection mold 9 adopts the design of multi-point mould, because a plurality of mold inserts 94 and slide block 96 are installed on the same injection mold 9, that is to say in the time of to guarantee when matched moulds that a plurality of mold inserts 94 can insert each self-corresponding slide block 96 jack 960 simultaneously respectively, the just easier appearance of this existing injection mold 9 designs damages and stuck situation, and injection mold 9 sizes are big more, mold insert 94 is big more from the center of injection mold 9, and this damage and stuck situation are just serious more.

Therefore, be necessary to provide a kind of injection mold that can remove plasthetics outer surface die parting line, can guarantee the smooth matched moulds of mould.

[utility model content]

Main purpose of the present utility model is to provide a kind of plastic mould with mold insert structure, can remove the plasthetics outer surface die parting line, and can guarantee the smooth matched moulds of mould.

For reaching above-mentioned purpose, the utility model adopts following technical scheme: a kind of injection mold with mold insert structure, include a cover half, a dynamic model, at least one mold insert, at least one slide block, and a mold cavity.This cover half has an assembly hole, and this assembly hole is away from this mold cavity, and forms one be connected the plane between this assembly hole and this mold cavity.This slide block is slidably to be installed on the dynamic model, and this slide block has a jack.This mold insert is installed on the cover half, this mold insert has a stiff end, an insertion end, and a shoulder that is formed between stiff end and the insertion end, and wherein this stiff end stretches in the assembly hole of this cover half, this insertion end then can be inserted in the jack of this slide block, and shoulder is pressed on this connection plane.This mold cavity is formed between this cover half, this dynamic model, this mold insert and this slide block behind the matched moulds.

Between the assembly hole of the stiff end of above-mentioned mold insert and this cover half, be formed with a gap.

The stiff end of above-mentioned mold insert is to be connected in a movable manner on this cover half, makes this mold insert to move with respect to this cover half in the scope that this gap allows.

One deep gouge is set above above-mentioned cover half, is used for taking in a nut, and this nut can be in this deep gouge move left and right.The stiff end of above-mentioned mold insert is connected on this nut by a screw.

The stiff end of the above-mentioned mold insert body that is rectangle, the cross section is rectangular; The assembly hole of the above-mentioned cover half body that also is rectangle, the cross section is rectangular; Wherein this stiff end is different with the width dimensions of this assembly hole.

The insertion end of above-mentioned mold insert is wedge shape.

Compared to prior art, the injection mold that the utlity model has the mold insert structure is by shoulder of design on mold insert, then designing one on the cover half on the plane that is connected between assembly hole and the mold cavity, provide the sealing effect by shoulder with the cooperation that is connected the plane, thereby prevent that the melted material in the mold cavity from overflowing.As seen, the utility model has changed original sealing position, with to adopt the camber line and the bridging mode improvement of camber line be plane of the present utility model in original sealing position and the bridging mode of plane (for example shoulder be connected the plane), thereby original two camber die parting lines on final plasthetics, have been eliminated.In addition, because mold insert of the present utility model can be adjusted its position on this cover half automatically in the scope that the gap allows, to adapt to owing to being subjected to mold temperature, processing and assembling to influence the tolerance that produces, thereby the insertion end that guarantees mold insert when matched moulds can be inserted in the jack of slide block smoothly, therefore the utility model service life that can improve injection mold, reduce the Mould Machining precision, thereby cut down finished cost.

[description of drawings]

Fig. 1 is the Facad structure schematic diagram of existing injection mold.

Fig. 2 is the side structure schematic diagram of existing injection mold.

Fig. 3 A is the part perspective view of the cover half of existing injection mold.

Fig. 3 B is the schematic perspective view of the mold insert structure of existing injection mold.

Fig. 3 C is the part perspective view of the slide block of existing injection mold.

Fig. 3 D is the structural relation figure of cover half, mold insert and the slide block significant points when cooperating of existing injection mold.

Fig. 4 is the Facad structure schematic diagram of the utility model injection mold.

Fig. 5 is the side structure schematic diagram of the utility model injection mold.

Fig. 6 A is the part perspective view of the cover half of the utility model injection mold.

Fig. 6 B is the schematic perspective view of the mold insert structure of the utility model injection mold.

Fig. 6 C is the part perspective view of the slide block of the utility model injection mold.

Fig. 6 D is the structural relation figure of cover half, mold insert and the slide block significant points when cooperating of the utility model injection mold.

[specific embodiment]

The explanation of relevant embodiment of the present utility model is graphic with reference to what add, can be in order to the specific embodiment of implementing in order to illustration the utility model.And the direction term of in the utility model, being mentioned, for example " on ", D score, " preceding ", " back ", " left side ", " right side ", " side " etc., only be direction with reference to annexed drawings.These direction terms are in order to explanation and understand the utility model, but not in order to restriction the utility model.In following examples, in different figure, same section is to represent with same numeral.

Please refer to the wherein injection mold 1 of an embodiment of the utility model shown in Fig. 4 to Fig. 6 D, wherein Fig. 4 is the Facad structure schematic diagram of the utility model injection mold 1; Fig. 5 is the side structure schematic diagram of the utility model injection mold 1; Fig. 6 A to 6D is the perspective view of cover half 10, mold insert 30 and the slide block 40 of the utility model injection mold 1.

Please refer to the wherein injection mold 1 of an embodiment of Fig. 4 and the utility model shown in Figure 5, the utility model injection mold 1 includes a cover half 10, a dynamic model 20, at least one mold insert 30, at least one slide block 40, and a mold cavity 50.

Shown in Fig. 4, Fig. 5 and Fig. 6 A, cover half 10 has an assembly hole 12, and this assembly hole 12 is away from mold cavity 50, forms one and be connected plane 14 between assembly hole 12 and mold cavity 50.Among the embodiment, cover half 10 tops also are formed with a deep gouge 16 therein, are used for holding a nut 60, and allow this nut 60 move left and right in deep gouge 16.Therein among the embodiment, this assembly hole 12 body that is rectangle, the cross section is rectangular.

Shown in Fig. 4, Fig. 5 and Fig. 6 C, be formed with a jack 42 on the slide block 40.Slide block 40 slidably is mounted on the dynamic model 20.

Shown in Fig. 4, Fig. 5 and Fig. 6 B, mold insert 30 has a stiff end 32, an insertion end 34 and is formed at the shoulder 36 between this stiff end 32 and this insertion end 34.Wherein the stiff end 32 of mold insert 30 is contained in the assembly hole 12 of cover half 10, and between stiff end 32 and assembly hole 12, be formed with gap a (as shown in Figure 4), stiff end 32 is to be connected in a movable manner on the cover half 10, makes mold insert 30 to move with respect to cover half 10 by this connected mode.The moving range of stiff end 32 is to be subject to gap a size.That is mold insert 30 can be adjusted its position in the assembly hole 12 of this cover half 10 in the scope that gap a allows, and owing to being subjected to mold temperature, processing and assembling to influence the tolerance that produces, therefore this structure has the function of fine setting with automatic adaptation.The insertion end 34 of mold insert 30 is to insert in the jack 42 of slide block 40.In addition, the shoulder 36 of mold insert 30 is connected with the plane 14 that is connected of cover half 10, that is the shoulder 36 of mold insert 30 is resisted against on the connection plane 14 of cover half 10.

Therein among the embodiment, as shown in Figure 4, the stiff end 32 of mold insert 30 body that is rectangle, the cross section is rectangular, that is its structure is basic identical with the structure of assembly hole 12, is the width dimensions difference.The insertion end 34 of mold insert 30 is wedge shape, so that vertically insert in the jack 42 of slide block 40.

Therein among the embodiment, as shown in Figure 4, the stiff end 32 of mold insert 30 is to be fixed to the nut 60 that is positioned at cover half 10 tops by a screw 62, because nut 60 directly is positioned in the deep gouge 16 of cover half 10, nut 60 just can be only limited to move left and right like this, and can not move up and down, also can move left and right and can not teetertotter to guarantee mold insert 30.Insert in the process of jack 42 of slide blocks 40 in the insertion end 34 of mold insert 30, mold insert 30 can move automatically according to the position of jack 42, this moment, insertion end 34, the stiff end 32 of mold insert 30 can be with nut 60 together to move, thereby adapt to jack 42 positions, to guarantee that mold insert 30 can enter jack 42 smoothly.

Concrete operation principle is: when cover half 10 and dynamic model 20 matched moulds, slide block 40 moves towards the central horizontal of dynamic model 20, the insertion end 34 of mold insert 30 is then vertically inserted in the jack 42 of slide block 40, thereby make and form mold cavity 50 between cover half 10, dynamic model 20, mold insert 30 and the slide block 40 behind the matched moulds, when injected plastics material be injected into this mold cavity 50 and through the cooling after, just in mold cavity 50, form a plasthetics, take out or eject automatically this plasthetics by minute modulo operation at last.

The shoulder 36 that the utility model has adopted mold insert 30 and cover half 10 be connected plane 14 bridging modes, thereby prevent that the melted materials in the mold cavity 50 from overflowing.As seen, the utility model has changed original sealing position, with to adopt the camber line and the bridging mode improvement of camber line be plane of the present utility model in original sealing position and the bridging mode of plane (for example shoulder 36 be connected plane 14), thereby original two camber die parting lines on final plasthetics, have been eliminated.In addition, because the utility model mold insert 30 can be adjusted its position on this cover half 10 automatically according to external condition in the scope that the gap allows, to adapt to owing to being subjected to mold temperature, processing and assembling to influence the tolerance that produces, thereby the insertion end 34 that guarantees mold insert 30 when matched moulds can be inserted in the jack 42 of slide block 40 smoothly, prevents injection mold 1 and damages and stuck situation.In a word, the utility model can improve the service life of injection mold 1, and because adaptive structure is arranged, therefore can reduce injection mold 1 machining accuracy, thereby further cut down finished cost.

Claims (7)

1. the injection mold with mold insert structure includes a cover half, a dynamic model, at least one mold insert, at least one slide block, and a mold cavity, and wherein this cover half has an assembly hole; This slide block slidably is installed on this dynamic model, and this slide block has a jack; This mold insert is installed on this cover half, and this mold insert has a stiff end and an insertion end, and this stiff end stretches in the assembly hole of this cover half, and this insertion end then can be inserted in the jack of this slide block; This mold cavity is formed between this cover half, this dynamic model, this mold insert and this slide block behind the matched moulds; It is characterized in that: the assembly hole of this cover half is away from this mold cavity, forms one and be connected the plane between this assembly hole and this mold cavity; And between the stiff end of this mold insert and insertion end, forming a shoulder, shoulder is pressed on this connection plane.

2. the injection mold with mold insert structure as claimed in claim 1 is characterized in that: be formed with a gap between the assembly hole of the stiff end of this mold insert and this cover half.

3. the injection mold with mold insert structure as claimed in claim 2 is characterized in that: the stiff end of this mold insert is to be connected in a movable manner on this cover half, makes this mold insert to move with respect to this cover half in the scope that this gap allows.

4. the injection mold with mold insert structure as claimed in claim 3 is characterized in that: a deep gouge is set above this cover half, is used for taking in a nut, and this nut can be in this deep gouge move left and right.

5. the injection mold with mold insert structure as claimed in claim 4 is characterized in that: the stiff end of this mold insert is connected on this nut by a screw.

6. the injection mold with mold insert structure as claimed in claim 2 is characterized in that: the stiff end of this mold insert body that is rectangle, and the cross section is rectangular; The assembly hole of this cover half body that also is rectangle, the cross section is rectangular; Wherein this stiff end is different with the width dimensions of this assembly hole.

7. the injection mold with mold insert structure as claimed in claim 6 is characterized in that: the insertion end of this mold insert is wedge shape.

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