RU2037357C1 - Investment mold - Google Patents

Abstract

FIELD: casting production. SUBSTANCE: mold has the movable 1 and the stationary 2 mold-halves. The counter-pusher 3, rigidly secured to the plate 4 of the tubular knocking-out member 8, passes through the mold-half 2. The rod-type knocking out members 5, rigidly secured to the plate 6 of the rod-type knocking out members with the aid of the pressure plate 7, also pass through the mold-half 2. The tubular knocking-out member 8 rests upon the plate 7. The bead 9 of the member 8 rests upon then plate at an initial position of the member 8 and over a first period of knocking out process. The knocking out member 8 is provided by the turning 10, into which the lock 11 is inserted with a play. EFFECT: enhanced structure of the mold. 1 cl, 2 dwg

Description

 The invention relates to foundry and is intended for the manufacture of models in the production of investment casting.

 Lost wax casting molds are known, comprising movable and fixed half-molds, tubular and rod ejector plates, counter pushers and an advance model advancement device.

 The disadvantages of these molds are a small range of advance models pushing, design complexity and large dimensions.

 Closest to the invention in technical essence is a mold for investment casting containing movable and fixed half molds, tubular and rod ejector plates with a counter ejector and a model ejection advancement device made in the form of a slider with bevels at the ends installed in the groove of the rod plate pushers and interacting through a wedge groove with a counter-pusher and a finger with a bevel fixed in a fixed half-mold, moreover, bevel of a finger and bevels of a wedge and kontrvytalkivatelya match the bevel on the ends of the slide.

 The disadvantage of this mold is that the tubular and rod ejectors are driven by different plates. As a result of inaccurate manufacture of parts of the device for advancing the pushing out of models, wear or a difficult course of parts, the plate of rod ejectors may not reach the extreme position during the reverse stroke. This can lead to deep ejector prints on the model.

 When a model is pushed out of a fixed half-mold, the tubular ejector receives movement earlier than the rod ejectors, since the plate of rod ejectors did not occupy the extreme position for the reasons mentioned above. This is dangerous at the initial moment of pushing the model, since the composition of the model material is brittle and cracks and breakdowns of models can form in bottlenecks, for example, in the clamping of feeders. Models go to marriage.

 The aim of the invention is to eliminate the marriage of models on the prints of ejectors, cracks and breakage of models.

 This goal is achieved by the fact that in a mold for investment casting, containing a movable and fixed half-mold, a plate of rod and tubular ejectors with a counter pusher, a device for advancing the ejection of models made in the form of a slider with bevels at the ends interacting with the counter pusher and a finger with according to the invention, the tubular ejector is provided with a shoulder that rests in the stowed position in the initial period of ejection onto the pressure plate rod pushers, and a groove, which includes a lock mounted on a plate of a tubular ejector, while the finger with a bevel is equipped with a protrusion-stop, which comes into contact in the initial position with the pressure plate of the rod ejectors.

 New significant features in the proposed mold is that the tubular ejector is equipped with a shoulder, resting in the initial position and in the initial period of pushing the model onto the pressure plate of the rod ejectors, and a groove, which includes a lock, mounted on the plate of the tubular ejector, while with a bevel equipped with a protrusion-stop, which comes into contact in the initial position with the pressure plate of the rod ejectors.

 Due to the presence of new significant features in the proposed mold, marriage of models by ejector prints, cracks and model breakage is excluded.

 In FIG. 1 shows a longitudinal section of a mold in its initial position; in FIG. 2 the same, with the location of the mold parts at the end of the model ejection stroke.

 The mold contains a movable 1 and a fixed 2 half molds. A counter pusher 3, rigidly mounted on the plate 4 of the tubular ejector, and rod ejectors 5, rigidly fixed in the plate 6 of the rod ejectors by the pressure plate 7, pass through the fixed half-mold 2. The tube ejector 8, equipped with a shoulder 9, is supported on the pressure plate 7.

 The bead 9 rests on the pressure plate 7 in the initial position and in the initial period of pushing the model.

 The tubular ejector 8 is also provided with a groove 10, which includes a gap 11 with a gap, rigidly fixed to the plate 4 of the tubular ejector.

 In the plate 6 of the rod pushers, the slider 12 is movably fixed, having bevels for interacting with the groove 13 of the counter pusher 3 and the bevel 14 of the pin 15, rigidly fixed in the base 16 of the mold. The finger 15 is provided with a protrusion stop 17, on which the pressure plate 7 rests.

 The investment casting mold works as follows.

 When the mold is opened, the movable half-mold 1 departs from the fixed half-mold 2. In this case, the rods 18 of the machine abut against a plate with a counter pusher 3 fixed to it.

 At the beginning of the movement, the counter-pusher 3 is engaged with the slider 12, therefore, through the slider 12, the movement of the plates 6 and 7 and the rod pushers 5 fixed therein are obtained.

 The tubular ejector 8 also receives movement simultaneously with the rod ejectors 5, since at the initial moment the tubular ejector 8 is supported by the shoulder 9 on the plate 7.

 The gap between the groove 10 of the tubular ejector 8 and the lock 11 eliminates at the beginning of the movement the contact of the plate 4 of the tubular ejector and the tubular ejector 8. The ejectors 5 and 8 begin to move simultaneously and synchronously.

 Further, when the plates 6 and 7 move, the slider 12 enters the bevel 14 of the fixed finger 15. Under the pressure of the counter pusher 3, the slider 12 moves in the plate 6 towards the finger 15, sliding along the groove 13 and the bevel 14. At this moment, the speed of the plates 6 and 7 slows down in relation to the speed of the plate 4 of the tubular ejector.

 The gap between the groove 10 of the tubular ejector 8 and the lock 11 is selected.

 Further movement of the tubular ejector 8 receives from the plate 4.

 At the moment of disengagement of the slider 12 with the counter pusher 3, the plates 6 and 7 and the rod pushers 5 stop. Further pushing of the model is carried out only by a tubular ejector 8.

 During the reverse stroke, the rods 18 of the machine move away from the plate 4. The movable half-mold 1 approaches the counter-pusher 3 and moves it together with the plate 4 back.

 The plate 4 lock 11 moves the tubular ejector 8. The tubular ejector 8 by the shoulder 9 returns the plates 6 and 7 and the rod ejector 5 in its original position.

 The protrusion-stop 17 on the finger 15 eliminates the accidental displacement of the plates 6 and 7 beyond the original position.

 The introduction of the proposed mold will eliminate the marriage of models on the prints of ejectors, cracks and breakage of models.

 The use of the invention in the national economy will provide a significant economic effect.

Claims (1)

 PRESS FORM FOR CASTING ON CASTED MODELS, containing movable and fixed half molds, plates with a rod and tubular ejector with a counter pusher, a device for advancing the ejection of models, made in the form of a slider, on the ends of which there are bevels with the possibility of interaction with the counter pusher and a finger with a bevel in a fixed half-mold, characterized in that, in order to exclude marriage of models by ejector prints, cracks and breakage of models, the tubular ejector has a shoulder and a groove for I lock mounted on the plate of the tubular ejector, and the shoulder is made with the possibility of support in the initial position and in the initial period of pushing the model on the pressure plate of the rod ejectors, and the finger with a bevel has a protrusion stop made to interact in the initial position with the pressure plate of the rod ejectors .

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