CS209794B1 - Apparatus for shooting cores into and removing them out of core boxes in shooting machines - Google Patents

Abstract

The invention relates to an apparatus for shooting and releasing cores from core boxes at shooting machines used in foundry to produce cores when the axis direction the shooting hole is identical to the direction ejector movement. His essence is that he is shooting the hole in the core boxes is formed by an opening in a collar that is firmly attached to the body core boxes and a coaxial hole in the bouncer which is inserted in the cavity formed between the collar and the core a whose coaxial movement is defined by the recess in the collar. The ejector is sprung with the aid of the springs and on its collar shoulder abut pins that go through work openings for this purpose in the collar formed and which are firmly associated with the ejection plate, provided with openings for free movement collars and blind plugs, on the core box fastened to the ejector plate body. The core boxes are formed in the core boxes blind holes into which they slide freely pins when unnecessary to cut they didn't break. The invention can also be used in the art plastic and rubber.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for firing and releasing cores from cores on firing machines used in foundry industry to produce cores, wherein the direction of the axis of the firing orifice is identical to the direction of movement of the ejector.

Currently, the firing hole is provided as part of the core box and the ejector is part of the punch plate. The core box is filled by the firing plate, which is part of the firing machine, and the distribution of the core holes corresponds to the firing plate's holes. After the core mixture has cured, the core moves to the ejection station, where the distribution of the core core apertures corresponds to that of the solid ejectors on the ejector plate. By moving the ejectors against the firing holes, the core is released. The disadvantage is that if the core shape changes, the location of the firing holes also changes, and as a result, corresponding firing and ejection plates have to be produced for each core and disassembled and mounted on the firing machine.

These disadvantages are overcome by the device according to the invention, characterized in that the penetration opening in the core box is formed by an opening in the collar, which is fixedly connected to the core body and a coaxial opening in the ejector which is movably slidable in the cavity formed between the collar and the core. the coaxial movement of which is defined by a recess in the collar, the ejector being spring-sprung and its collar shoulder supported by pins which pass through the bores provided for this purpose in the collar and which are rigidly connected to a punch plate provided with relief holes for undisturbed movement of the collars; blanking plugs, mounted on the core box, into the body of the punch plate, while in the core box itself are formed around the blanking plugs? blind holes for free movement of the pins into the core box.

The device according to the invention makes it possible to use a universal kind of firing plates with an optimally selected spacing of the firing holes and universal plates with a corresponding set of relief holes and pegs for different shapes of produced cores on firing machines. This will reduce the need for shot and punch plates, reduce material and handling costs in particular, and increase the use of core shot punching machines.

An example of an embodiment of the device according to the invention is shown in the accompanying drawing, in which Fig. 1 shows a device with a firing plate in cross section at the time of core penetration into the core box;

The device consists of a core body 2, on which a collar 2 is screwed, through which the firing hole 2 passes. In the cavity formed between the collar 2 and the core 2 is an ejector 4 with a firing hole 2 partially inserted in the recess in the lower part and sprung by a spring J located on the lower bearing surface of the cavity in the core box 11 and pressing against the lower part of the collar shoulder of the ejector 4. The upper part of the collar shoulder of the ejector 4 is supported by pins 2 which are apertures 2, 2 ' ^and form an optimum assembly suitable for the maximum number of shapes of the cores produced. A corresponding arrangement of the relief holes 12, 12 'is provided in the punch plate 8 for the undisturbed insertion of the collars 2 or blanking plugs 4 in the core box 2 screwed into the punch body 8 during punching out. In the punch plate 8, pins 2 are pressed around the relief holes 12 and 12 'so as to pass through the working holes 10 and operate the ejectors. When the injection holes 2 are blinded in the core 2 by the screwed-in blanking plugs 6, the adjacent pins 2, when punched out, are inserted into the blind openings 22 disposed for this purpose around the blanking plugs 6.

The firing plate 2 ^is fastened to the head of the firing machine in the firing station and the punch plate 8 is fastened to the head of the firing machine in the firing station.

At the time of the core mixture firing, the firing plate 2 rests on the collars 2 and the blanking plugs 6 and the ejectors 2 are in the rest position.

At the time of punching out the core, the punch plate 8 towards the core box 1 and the pins 2 were pressed against the ejectors ejecting the core. The relief holes 1 2. 1 = / eliminate the risk of damage to the collars 2 and blanking plugs 6 when punching out, just as blind holes 11 protect against damage by the pins 2 where the blanking plugs 6 are.

The device according to the invention can be used in the foundry fields for cold and hot core hardening methods, but also in the plastics and rubber industries where similar permanent metal molds are used.

Claims (1)

SUBJECT OF THE INVENTION Apparatus for sniping and releasing cores from core boxes on firing machines, especially in cores with a horizontal dividing plane, characterized in that the penetration opening (9) in the core boxes (1) is formed by an opening in the collar (2) which is firmly connected to the body of the cores (1) and a coaxial opening in the ejector (4), which is inserted in the cavity between the collar (2) and the core (1) and its coaxial movement is defined by the recess in the collar (2). (3) and its collar shoulder are supported by pins (7) which pass through the working openings (10) formed in the collar (2) and which are firmly connected to a punch plate (8) provided with relief openings (12, 12 ') for free sliding on the core box (1) of the fixed collars (2) and blind plugs (6) into the punch plate body (8) and in the core box (1) blind holes (11) are formed around the blind plugs (6) the pins (7) into the core body (1).