CN103568224A - Large-stroke lateral-sliding demolding mechanism - Google Patents

Abstract

The invention provides a large-stroke lateral-sliding demolding mechanism. The large-stroke lateral-sliding demolding mechanism comprises a moving mold part and a fixed mold part which are mutually matched, wherein the moving mold part comprises an inclined top, a guide rail, a lateral pulling block and a driving rod penetrating through the inclined top; one end of the driving rod is connected with the lateral-sliding block, and the other end of the driving rod moves along the guide rail; the lateral pulling block is internally provided with a T-shaped guide sliding block which is connected with the driving rod and slides along the side direction opposite to the lateral pulling block; the lateral-sliding direction is vertical to the guide rail and the driving rod; the fixed mold part comprises a locking block and a poking rod which are matched with the lateral pulling block. The large-stroke lateral-sliding demolding mechanism provided by the invention has the advantages that the lateral pulling block slides laterally along the T-shaped guide sliding block by the poking rod in the fixed mold part, so that the lateral sliding action is not limited by the ejecting height of the inclined top, the large-stroke lateral-sliding demolding can be met without increasing the ejecting height, further the height of the mold is reduced, the manufacturing cost of the mold is saved and the injection-molding period of a product is shortened.

Description

Large stroke sideslip mould emptier

Technical field

The invention belongs to mould of plastics field, be specifically related to a kind of large stroke sideslip mould emptier.

Background technology

In prior art mould emptier; comprise the dynamic model part and the cover half part that cooperatively interact; described dynamic model partly comprises oblique top, guide rail, layback piece and the drive rod that passes described oblique top; one end of described drive rod is directly connected with described layback piece, and the other end of described drive rod is along described guide rail movement.Wherein, layback piece, along with the drive rod being driven by oblique top is along guide rail movement, produces and is displaced sideways so that the demoulding smoothly when upwards ejecting.Yet, due to the restriction of layback piece greatest limit angle, make the distance that is displaced sideways of layback piece increase, certainly will to strengthen ejection height, therefore need to strengthen mold height, when increasing die cost, also affect whole injection cycle.

Summary of the invention

The object of this invention is to provide a kind of large stroke sideslip mould emptier, under the prerequisite that does not increase ejection stroke, meet the demoulding of large stroke sideslip, thereby reduce mold height, save die manufacturing cost, shorten product injection cycle.

Based on above-mentioned purpose, the technical solution adopted in the present invention is:

A kind of large stroke sideslip mould emptier, comprise the dynamic model part and the cover half part that cooperatively interact, described dynamic model partly comprises oblique top, guide rail, layback piece and the drive rod that passes described oblique top, one end of described drive rod is connected with described layback piece, the other end of described drive rod is along described guide rail movement, the T shape slider guide that is provided with and relative described layback piece lateral sliding connected with described drive rod in described layback piece, this lateral sliding direction is not only perpendicular to described guide rail but also perpendicular to described drive rod; Described cover half partly comprises latch segment and the driving lever coordinating with described layback piece.

Described layback piece is provided with the T connected in star that extends to hold described T shape slider guide along described lateral sliding direction.

Described T shape slider guide has perpendicular to the outstanding location division of described lateral sliding direction.

Described layback piece has at least two cammed surface, and described latch segment and driving lever have respectively the cammed surface coordinating with at least two cammed surface of described layback piece.

The cammed surface of described latch segment and the cammed surface of described driving lever be arranged in parallel.

Described drive rod and described T shape slider guide are bolted to connection.

Described drive rod both sides are respectively equipped with the guide post being connected with described T shape slider guide.

Large stroke sideslip mould emptier of the present invention; by the driving lever in cover half part, promote layback piece along T shape slider guide lateral sliding; thereby the action that makes lateral sliding is not subject to the restriction of lifter ejection height; can under the prerequisite that does not increase ejection height, meet the demoulding of large stroke sideslip; thereby reduction mold height; save die manufacturing cost, shorten product injection cycle.

Accompanying drawing explanation

Fig. 1, Fig. 2 are the side views of large stroke sideslip mould emptier different angles of the present invention;

Fig. 3 is the stereogram of the previous angle of large stroke sideslip mould emptier die sinking of the present invention;

Fig. 4 is the stereogram of an angle after large stroke sideslip mould emptier of the present invention die sinking;

Fig. 5 is the stereogram of another angle before large stroke sideslip mould emptier of the present invention die sinking;

Fig. 6 is the stereogram of another angle after large stroke sideslip mould emptier of the present invention die sinking;

Fig. 7 is the cutaway view before large stroke sideslip mould emptier of the present invention die sinking;

Fig. 8 is the cutaway view after large stroke sideslip mould emptier of the present invention die sinking.

The specific embodiment

Below with reference to the accompanying drawings, provide preferred embodiment of the present invention, and be described in detail, enable to understand better function of the present invention, feature.

Fig. 1-Fig. 8 illustrates large stroke sideslip mould emptier of the present invention, it comprises dynamic model part and the cover half part (referring to Fig. 8) cooperatively interacting, wherein dynamic model partly comprises dynamic model B, oblique top E, guide rail 1, layback piece 7 and the drive rod 2 that passes oblique top E, one end of this drive rod 2 is connected with layback piece 7, the other end of this drive rod 2 moves along guide rail 1, in layback piece 7, be provided with and be connected with drive rod 2 and the T shape slider guide 4 of opposite side pulling block 7 lateral slidings, as Fig. 7, shown in 8, drive rod 2 is bolted to connection with T shape slider guide 4, in addition, cover half partly comprises cover half A and the latch segment 5 coordinating with layback piece 7 and driving lever 6.Arrow X in Fig. 1 and Fig. 2 indicates the die sinking direction of this mould emptier, the lateral sliding direction of arrow Y indication layback piece 7 relative T shape slider guides 4, and this lateral sliding direction is not only perpendicular to guide rail 1 but also perpendicular to drive rod 2.

In one embodiment of the invention, layback piece 7 has at least two cammed surface 71,72, latch segment 5 and driving lever 6 have respectively the cammed surface 51,61 coordinating with at least two cammed surface 71,72 of layback piece 7, and preferably, the cammed surface 51 of latch segment 5 be arranged in parallel with the cammed surface 61 of driving lever 6.In matched moulds process, cover half A drives latch segment 5 mobile towards the opposite direction (being the opposite direction of X in Fig. 1) of die sinking direction, the cammed surface 51 of latch segment 5 matches with the cammed surface 71 of layback piece 7, layback piece 7 is pushed into predeterminated position, thereby makes layback piece 7 T shape slider guide 4 lateral slidings relatively.Layback piece 7 is provided with the T connected in star 73 that extends to hold T shape slider guide 4 along lateral sliding direction, and T shape slider guide 4 has perpendicular to the outstanding location division 41 of lateral sliding direction T shape slider guide 4 is remained on to T connected in star 73 and be difficult for deviating from.After injection moulding process completes, carry out one-level and eject, now oblique top E drives drive rod 2 to move towards die sinking direction along guide rail 1, thereby the T shape slider guide being connected with drive rod 24 drives layback piece 7 to move in the same way realization, draws distortion.In die sinking process, cover half A drives latch segment 5 to move towards die sinking direction, the locking effect of latch segment 5 is cancelled, the cammed surface 61 of driving lever 6 matches with the cammed surface 72 of layback piece 7, promotes layback piece 7 along T shape slider guide 4 lateral slidings so that the demoulding smoothly, thereby makes the action of lateral sliding not be subject to the restriction of lifter ejection height, can under the prerequisite that does not increase ejection height, meet the demoulding of large stroke sideslip, thereby reduction mold height, saves die manufacturing cost, shortens product injection cycle.

In another embodiment of the present invention, drive rod 2 both sides are respectively equipped with the guide post 3 being connected with T shape slider guide 4, to play auxiliary guiding and anti-rotation effect when guide rail 1 moves at drive rod 2.

Above-described, be only preferred embodiment of the present invention, not in order to limit scope of the present invention, the above embodiment of the present invention can also make a variety of changes.Be that simple, the equivalence that every claims according to the present patent application and description are done changes and modify, all fall into the claim protection domain of patent of the present invention.

Claims (7)

1. a large stroke sideslip mould emptier; comprise the dynamic model part and the cover half part that cooperatively interact; described dynamic model partly comprises oblique top, guide rail, layback piece and the drive rod that passes described oblique top; one end of described drive rod is connected with described layback piece; the other end of described drive rod is along described guide rail movement; it is characterized in that

The T shape slider guide that is provided with and relative described layback piece lateral sliding connected with described drive rod in described layback piece, this lateral sliding direction is not only perpendicular to described guide rail but also perpendicular to described drive rod;

Described cover half partly comprises latch segment and the driving lever coordinating with described layback piece.

2. large stroke sideslip mould emptier as claimed in claim 1, is characterized in that, described layback piece is provided with the T connected in star that extends to hold described T shape slider guide along described lateral sliding direction.

3. large stroke sideslip mould emptier as claimed in claim 1 or 2, is characterized in that, described T shape slider guide has perpendicular to the outstanding location division of described lateral sliding direction.

4. large stroke sideslip mould emptier as claimed in claim 1 or 2, is characterized in that, described layback piece has at least two cammed surface, and described latch segment and driving lever have respectively the cammed surface coordinating with at least two cammed surface of described layback piece.

5. large stroke sideslip mould emptier as claimed in claim 4, is characterized in that, the cammed surface of described latch segment and the cammed surface of described driving lever be arranged in parallel.

6. large stroke sideslip mould emptier as claimed in claim 1 or 2, is characterized in that, described drive rod and described T shape slider guide are bolted to connection.

7. large stroke sideslip mould emptier as claimed in claim 1 or 2, is characterized in that, described drive rod both sides are respectively equipped with the guide post being connected with described T shape slider guide.

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